CN218834969U - Faucet and waterway system with same - Google Patents

Abstract

The embodiment of the utility model provides a tap and waterway system that has it. A first pipeline and a second pipeline which are independent from each other are arranged in a tap main body of the tap, the first pipeline extends from a water inlet end to a water taking end, and a water inlet of the second pipeline is positioned at the water inlet end; the first valve body is arranged on the first pipeline; the atomizer with the water storage port is detachably connected to the faucet main body, and the second pipeline water outlet is connected with the water storage port when the atomizer is connected to the faucet main body; the water pump is arranged on the second pipeline; the faucet main board is used for responding to the operation of a user and controlling the water pump to start for a preset time. The user can take off the atomizer and use in suitable scene, improves user experience and feels. The faucet can simultaneously and normally take water and store water for the atomizer without mutual interference. The control logic of the faucet for filling the atomizer with water is simple, and the faucet is low in cost. The water pump is arranged, so that the water can be stored for the atomizer under a wider range of pressure working conditions by the faucet, and the universality of the faucet is stronger; the reliability is higher, has reduced manufacturing cost.

Description

Faucet and waterway system with same

Technical Field

The utility model relates to a water intaking equipment technical field specifically, relates to a tap and waterway system who has it.

Background

With the increasing demands of users on quality of life, the functions of faucets are developing towards diversification. Some faucets have atomizers mounted thereon that can spray atomized water, which can be utilized when a user requires a small amount of water, such as to moisturize or replenish the skin.

In the tap that has atomizing function now, the atomizer passes through on the double-screw bolt threaded connection to the tap, is provided with the atomizing water route for the atomizer supplies water on the double-screw bolt. When the atomizer is needed, the stud can be screwed into a faucet, the stud can block a water outlet of the faucet, and the atomization waterway can be communicated with a water inlet of the faucet to introduce water flow into the atomizer. When the tap normally goes out water, the stud can be rotated outwards to enable the water inlet of the atomization water path to be moved out of the main water path in the tap, the end part of the stud can be in threaded seal with the tap, the water outlet of the tap can normally go out water at the moment, and the atomizer stops being used.

However, when the skin moisturizing is performed by using the atomizer, a user has to walk to the faucet and bend down to aim the face at the faucet, so that the user experience is poor, the utilization rate of the atomization function is low, and if the daily cleaning is not in place, the function becomes a sanitary dead angle, so that the function becomes a chicken rib. Furthermore, the normal water intake and atomizing functions of the faucet can only be used in the alternative, which further results in poor market competitiveness of such products.

SUMMERY OF THE UTILITY MODEL

In order to at least partially solve the problems in the prior art, the embodiment of the utility model provides a faucet and waterway system with the same. The faucet comprises a faucet main body, a first valve body, an atomizer, a water suction pump and a faucet main board, wherein the faucet main body is provided with a water inlet end and a water taking end, a first pipeline and a second pipeline which are independent from each other are arranged in the faucet main body, the first pipeline extends from the water inlet end to the water taking end, and a water inlet of the second pipeline is positioned at the water inlet end; the first valve body is arranged on the first pipeline; the atomizer is provided with a water storage port and detachably connected to the faucet main body, and a water outlet of the second pipeline is connected with the water storage port when the atomizer is connected to the faucet main body; the water suction pump is arranged on the second pipeline; and the faucet main board is used for responding to the operation of a user and controlling the water suction pump to start for a preset time.

The utility model provides an atomizer detachably of tap is connected to leading main part, and the user can take off the atomizer back and use under the suitable scene, has improved user's experience greatly and has felt and the satisfaction. In addition, the main faucet body is internally provided with a first pipeline and a second pipeline which are independent of each other, and the first pipeline is provided with a first valve body, so that the conventional function of the faucet can be realized. And a water suction pump is arranged on the second pipeline and can store water for the atomizer. The first pipeline and the second pipeline are arranged in a double mode, so that the faucet can simultaneously and normally take water and store water for the atomizer, and of course, the two functions can be used alternatively without mutual interference. The first and second conduits being independent of each other may be such that they are connected to different water sources, respectively, for example the second conduit may be connected to a source of clean water to ensure the purity of the atomized water, thereby improving the flexibility of use of the tap. When the atomizer is installed on tap main part after using, can start the suction pump, store water to the atomizer through the second pipeline. The tap mainboard can hold the atomizer full water through controlling the suction pump to start for predetermined duration, and this kind of control logic is simple, and the cost is lower. The water pump is arranged, so that the faucet can store water for the atomizer under a wider range of pressure working conditions, and the universality of the faucet is stronger. Through setting up the suction pump, the reliability of tap is higher, for setting up the break-make of valve class part come control second pipeline, has reduced the manufacturing cost of tap.

Illustratively, a third pipeline is further arranged in the faucet body, a water inlet of the third pipeline is connected to the second pipeline, and a water outlet of the third pipeline is located at the water taking end. So arranged, the user can take the water flowing out of the first pipeline, such as raw water, at the water taking end of the faucet. The user can also take the water flowing out of the third line, for example, clean water, at the water intake end of the faucet. Through setting up the third pipeline, increased still another function of tap, promoted user's use experience.

Illustratively, the faucet main body comprises an upper shell and a lower shell, wherein the upper shell is connected to the top of the lower shell, and the upper shell and the lower shell surround to form a containing cavity for containing a first pipeline and a second pipeline; the tap main part still includes the mount pad that is located and holds the intracavity, and the mount pad is connected to last casing, and the suction pump is connected to on the mount pad. Due to the arrangement, the faucet main body is divided into the upper part and the lower part, and various pipelines are easier to process, manufacture and arrange; moreover, the water suction pump can be positioned in the containing cavity, the upper shell and the lower shell play a role in protecting the water suction pump, the water suction pump is prevented from being exposed and frequently collided by a user, and the service life of the water suction pump is prolonged; moreover, the mounting seat can fix the water pump, so that the running stability of the water pump is improved; in addition, it is easier to handle and route the lines within the receiving chamber.

Illustratively, the faucet body is provided with a mounting hole, and the atomizer includes a mounting head at a lower portion thereof, the mounting head being detachably inserted into the mounting hole. So set up, the atomizer can be connected to tap main part more easily, and the dismouting of atomizer and tap main part is more convenient. Moreover, the tap main body is simple to machine and manufacture. In addition, the installation head is located the lower part of atomizer, and the user can hold the upper portion of atomizer, pegs graft to the mounting hole with it, and the user operation of being convenient for, user experience feels better.

Illustratively, the water storage port is located on the mounting head, and the water storage port is provided with a one-way valve which is conducted when the mounting head is inserted into the mounting hole. So set up, can make the atomizer take off the back retaining opening water-tight from leading main part through setting up the check valve.

Illustratively, the charging module is further arranged in the mounting hole, the atomizer further comprises a storage battery and an atomizer contact electrically connected with the storage battery, the atomizer contact is positioned on the mounting head, and the charging module is electrically contacted with the atomizer contact when the mounting head is inserted into the mounting hole. With the arrangement, when the mounting head is inserted into the mounting hole, the charging mode is started, and the charging module can automatically charge the storage battery of the atomizer; moreover, contact charging may make charging more reliable and reduce the production cost of the faucet compared to non-contact charging, such as contactless charging.

The atomizer further comprises a support, a water tank and an atomizer main board, wherein the water tank is supported above the support, a battery clamping part and a circuit board clamping part are arranged on the bottom surface of the support, the atomizer contact is electrically connected with the atomizer main board, the battery is clamped on the battery clamping part, and the atomizer main board is clamped on the circuit board clamping part. By the arrangement, the water tank and the storage battery of the atomizer can be separated into two areas by the support, so that the main water and electricity distribution area is divided to a certain extent, the probability of circuit failure caused by water leakage is reduced, and the performance stability of the atomizer is improved; moreover, the battery clamping part and the circuit board clamping part are arranged on the support, so that the storage battery and the atomizer main board can be more stably installed in the atomizer through the support, the main circuit elements can be integrally installed on the support through the support, the structure of the atomizer can be more compact, and the miniaturization design of the atomizer is facilitated.

Illustratively, a first convex waterway connector is arranged at the bottom of the mounting hole, the first waterway connector is connected to the water outlet of the second pipeline, the first waterway connector is connected with the water storage port when the mounting head is plugged into the mounting hole, the charging module comprises a first contact mounting seat sleeved on the first waterway connector, a faucet contact is arranged on the first contact mounting seat, the faucet contact is electrically connected with a faucet mainboard of a faucet, and the faucet contact is electrically contacted with the atomizer contact when the mounting head is plugged into the mounting hole. So set up, through setting up first contact mount pad, the tap contact can firmly be set up in the tap, avoids not hard up of tap contact. When the mounting head of the atomizer is connected to the mounting hole of the faucet main body, the faucet main board can be in electrical contact with the atomizer through the faucet contact, so that the atomizer can be charged conveniently; meanwhile, the water outlet of the second pipeline in the faucet body can be connected with the water storage port of the atomizer, namely, when the mounting head is connected to the mounting hole, the faucet can synchronously charge and store water for the atomizer, the control logic of the faucet is simpler, and the operation is more convenient.

Exemplarily, the atomizer still includes second contact mount pad and the base of setting in the installation head, and the base is fixed in the installation head, is provided with the second water route joint who forms the mouth of a river that holds on the base, and the atomizer contact is installed on the second contact mount pad, and the atomizer contact passes the below that the second contact mount pad extended to the second contact mount pad. So set up, through setting up the second contact mount pad, the atomizer contact can firmly set up in the installation head, avoids not hard up of atomizer contact. Through setting up the base that has the second water route and connect, the atomizer changes in forming and holds the mouth of a river, the convenient delivery port intercommunication with the second pipeline. In addition, the atomizer contact passes through the second contact mount pad, and this makes the atomizer contact be convenient for contact with tap contact in the bulge state, and the contact is aimed at more directly perceived swiftly.

Exemplarily, the atomizer still includes the sealing member, is provided with a plurality of pilot holes on the base, is provided with a plurality of convex posts that upwards project on the sealing member, and a plurality of convex posts one-to-one are installed to a plurality of pilot holes, and the sealing member centre gripping is between first water route joint and second water route joint when installation head is inserted to the installation hole. So set up, the sealing member can play sealed effect at the hookup location of installation head and mounting hole, avoids the water leakage between first water route joint and the second water route joint.

Illustratively, the atomizer has an atomizing outlet with an atomizing member disposed thereon. So set up, the atomizer can realize the atomizing function of tap through the atomizing piece, and the atomizing mode is simple and easy, does benefit to the structure of simplifying the atomizer.

Illustratively, the atomizer still has the escape orifice, and the escape orifice is located the top of atomizer, and the atomizer still includes the lid, but lid switch escape orifice. So set up, through setting up the escape orifice, the user moisturizing can be poured the surplus water in the atomizer after finishing, and the convenience holds new water at every turn. Moreover, the user emptys the water remainder back, when pegging graft the atomizer to leading the main part, like this, all be anhydrous state before the atomizer impounds at every turn, and the capacity of every atomizer is a definite value, and it is long when setting for a predetermined time in leading the mainboard, the control of tap is simpler. In addition, the user can add required additives through the excretion hole, so that different skin care effects of the user can be met, and the satisfaction degree of the user is greatly improved. In addition, in the pumping process, a small amount of gas is inevitably generated in the pipeline in the faucet body and the atomizer, and in the working process of the water suction pump, the small amount of gas can be discharged from the discharge port, so that the atomizer can be ensured to be full of water.

The faucet further comprises an operation panel, a faucet main board is connected to the operation panel, the operation panel is used for receiving user operation and generating operation information, and the faucet main board is used for controlling the water suction pump to be started for a preset time according to the operation information. By the arrangement, a user can operate the water pump on the operation panel and further start the water pump to work through the faucet main board, so that the operation of the faucet is more convenient for the user; the tap is more intelligent to the retaining of atomizer.

The utility model discloses another aspect still provides a waterway system. The waterway system includes: a raw water pipeline; a water purifier; and the faucet of any one of the preceding claims, wherein the water outlet of the raw water pipeline is connected with the water inlet of the first pipeline, and the water outlet of the water purifier is connected with the water inlet of the second pipeline. Because the faucet has the technical effects, the waterway system covering the faucet also has the technical effects.

A series of concepts in a simplified form are introduced in the context of the present invention, which will be described in further detail in the detailed description section. The summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

The advantages and features of the present invention are described in detail below with reference to the accompanying drawings.

Drawings

The following drawings of the present invention are used herein as part of the present invention for understanding the present invention. There are shown in the drawings, embodiments and descriptions thereof, which are used to explain the principles of the invention. In the drawings, there is shown in the drawings,

FIG. 1 is an isometric view of a faucet according to an exemplary embodiment of the present invention, with an atomizer mounted on the faucet body;

FIG. 2 is another isometric view of the faucet shown in FIG. 1 (without the second line shown);

FIG. 3 is a schematic view of the faucet shown in FIG. 1 with the atomizer separated from the faucet body;

FIG. 4 is a schematic view of opening the upper housing of the faucet body based on that shown in FIG. 3 (the second and third lines not shown);

FIG. 5 is an exploded view of the faucet according to FIG. 1;

FIG. 6 is another exploded view of the faucet shown in FIG. 1;

FIG. 7 is a partial isometric view of the faucet shown in FIG. 1;

fig. 8 is an isometric view of a mounting head according to the atomizer shown in fig. 6;

fig. 9 is an isometric view of the base of the atomiser shown in fig. 6; and

fig. 10 is an isometric view of a support for the atomiser shown in fig. 5.

Wherein the figures include the following reference numerals:

100. a faucet; 101. a water inlet end; 102. a water taking end; 103. a faucet handle; 200. a faucet body; 201. an accommodating chamber; 202. mounting holes; 203. a first waterway connector; 210. a first pipeline; 213. a water inlet of the first pipeline; 214. a water outlet of the first pipeline; 220. a second pipeline; 221. 222, 223, a water pipe; 224. a water inlet of the second pipeline; 225. a water outlet of the second pipeline; 230. a third pipeline; 230a, 230b, water pipes; 231. a water inlet of a third pipeline; 232. a water outlet of the third pipeline; 240. an upper housing; 241. an operation panel; 250. a lower housing; 260. a mounting base; 300. an atomizer; 301. a water storage port; 302. an atomization outlet; 303. a drain port; 310. a mounting head; 311. an atomizing operation member; 312. a switch mounting hole; 313. a bracket jack; 320. a storage battery; 330. a second contact mounting base; 331. an atomizer contact; 340. a water tank; 341. a water tank outer shell; 342. a water tank body; 343. a decorative panel; 344. a cover body; 350. an atomizer main board; 360. an atomizing member; 370. a support; 371. a battery holding part; 372. a circuit board retaining part; 380. a base; 381. a first through hole; 382. an assembly hole; 383. a second waterway connector; 390. a seal member; 400. a water pump; 500. a first valve body; 600. a charging module; 610. a first contact mounting base; 611. a faucet contact; 700. and a tee joint.

Detailed Description

In the following description, numerous details are provided to provide a thorough understanding of the present invention. One skilled in the art, however, will understand that the following description illustrates only a preferred embodiment of the invention and that the invention may be practiced without one or more of these details. In addition, some technical features that are well known in the art are not described in detail in order to avoid obscuring the present invention.

In the following description, a detailed structure will be presented for a thorough understanding of embodiments of the invention. It is apparent that the implementation of the embodiments of the present invention is not limited to the specific details familiar to those skilled in the art. The following detailed description of the preferred embodiments of the invention, however, the invention is capable of other embodiments in addition to those detailed.

An embodiment of the utility model provides a tap. The tap can be arranged at the terminal of the water pipe to control the on-off of the water pipe. Faucets have found widespread use in kitchens and toilets and other settings. A faucet 100 according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 10.

As shown in fig. 1 to 6, the faucet 100 may include a faucet body 200 and an atomizer 300. The atomizer 300 may be detachably connected to the faucet body 200. When the atomizer 300 is mounted to the faucet body 200, the faucet body 200 may hold water for the atomizer 300; optionally, the faucet body 200 may also charge the atomizer 300.

The faucet body 200 may have a water intake end 101 and a water intake end 102. An external water source such as municipal piping, a water purifier, etc. may be connected to the water inlet end 101. The water intake end 102 is the end of the user that receives the water from the faucet 100.

As shown in FIG. 6, a first conduit 210 and a second conduit 220, which are independent of each other, may be provided within the faucet body 200. In some embodiments, the housing of the faucet body 200 can be a unitary piece, or a separate piece. For example, as shown in fig. 1 to 6, the tap body 200 may include an upper case 240 and a lower case 250. The upper case 240 may be connected to the top of the lower case 250. The atomizer 300 may be connected to the upper housing 240 or to the lower housing 250. Preferably, the atomizer 300 is connected to the upper housing 240. As shown in fig. 4-6, the upper housing 240 and the lower housing 250 may surround to form a receiving cavity 201. The receiving chamber 201 may receive a first tube 210 and a second tube 220.

As shown in fig. 2, the first pipe 210 may extend from the water inlet end 101 to the water intake end 102. The inlet 213 of the first pipe 210 may be located at the inlet end 101. The outlet 214 of the first pipe 210 may be located at the intake end 102. The first pipeline 210 may be provided with a first valve body 500, as shown in fig. 6. The first valve body 500 can be connected with the tap handle 103, and the opening degree of the first valve body 500 can be adjusted through the tap handle 103. The faucet 100 may further include an operation panel 241, and the operation panel 241 may be provided at the top of the upper housing 240. In the case where the operation panel 241 is provided, the first valve body 500 may be connected to the operation panel 241, and the opening degree of the first valve body 500 may be controlled by the operation panel 241. In one embodiment, the water inlet 213 of the first pipe 210 may be connected to a water outlet of a raw water pipe supplying raw water. The first pipeline 210 may be a single pipe or a plurality of pipes. Here and hereinafter "first" is used only to distinguish similar objects, and not to limit the number of objects described. The terms "second" and "third" are also used hereinafter merely to distinguish similar objects, and do not limit the number of objects described. For example, in a more specific embodiment, a water heater may be connected upstream of the first pipe 210. The first pipe 210 may include a cold water pipe and a hot water pipe (not shown in the drawings) between the water inlet 213 and the first valve body 500. The cold water pipe and the hot water pipe may be connected to the first valve body 500, and the temperature of water is controlled by the first valve body 500. The hot and cold water flow through the first valve 500 and then merge into a stream of water, which flows through the first pipeline 210 downstream of the first valve 500 to the water intake end 102. The first pipeline 210 and the second pipeline 220, which will be further described below, may be formed using various flexible pipes, rigid pipes, or various pipes that may be present in the future, which are known in the art, and are not limited herein. The first valve body 500 may be various valve bodies such as a manual valve and an electric valve, and is not limited herein. The first valve body 500 may control the on/off of the first pipeline 210. When the first valve body 500 is opened, the water inlet 213 of the first pipeline 210 is communicated with the water outlet 214 thereof. A user can access the water flowing out of the first pipe 210 at the water intake end 102. When the first valve body 500 is closed, the water inlet 213 of the first pipeline 210 is not communicated with the water outlet 214 thereof. The first valve body 500 and the first pipeline 210 may perform the conventional functions of the faucet 100.

As shown in fig. 6, the inlet 224 of the second pipe 220 may be located at the inlet end 101. Typically, the water inlet 213 of the first pipe 210 communicates with a different water source than the water inlet 224 of the second pipe 220. Of course, in some situations, the water inlet 213 of the first pipeline 210 and the water inlet 224 of the second pipeline 220 may be connected to the same water source, which is not limited herein. In one embodiment, the water inlet 224 of the second pipeline 220 can be connected to a water purifier. When the nebulizer 300 is connected to the faucet body 200, the water outlet 225 of the second conduit 220 can be connected to the water inlet 301 of the nebulizer 300.

As shown in fig. 3-6, a suction pump 400 may be disposed on the second pipe 220. After the purified water in the water purifier flows out, the purified water is sucked into the second pipeline 220 under the suction action of the water pump 400 and is conveyed to the water storage port 301 of the atomizer 300. Suction pump 400 may be implemented with any of a variety of suction pumps known in the art or that may come into existence in the future, including but not limited to miniature self-priming pumps and the like.

Illustratively, the nebulizer 300 may include a water tank 340, as shown in fig. 6. The water tank 340 may include a tank outer housing 341, a tank body 342 (water inlet and outlet of the tank body 342 are not shown), and a decorative panel 343. The tank outer housing 341 is located outside the tank body 342. The water storage port 301 may communicate with the water tank 340. The atomizer 300 may be of various types, and is not limited thereto. As shown in fig. 1-6, nebulizer 300 may also generally have nebulizing outlet 302 and nebulizing operator 311. The atomizing outlet 302 may be one or more. The atomizing operation member 311 can receive an operation by a user. When a user desires to use the nebulizer 300, the nebulizer 300 can be removed from the faucet body 200, and the nebulizer operation tool 311 is operated to spray the water stored in the water tank 340 from the nebulizer outlet 302 in a nebulized form. The user aims the atomization outlet 302 at the skin needing water supplement, and then the skin at the corresponding position can be supplemented with water. To form a finer spray and reduce the damage to the skin from impurities in the water, the atomizer 300 typically holds higher quality water, e.g., clean water.

Faucet 100 also includes a faucet main plate. The main faucet plate may be generally located on main faucet body 200. In some embodiments, the main faucet plate may be housed within a housing of main faucet body 200. The faucet main board may control the water pump 400 to be activated for a predetermined period of time in response to a user operation. The predetermined length of time may be understood herein as the time required for the water pump 400 to fully charge the nebulizer 300 at a rated flow rate. This predetermined length of time may be calculated and stored in advance in the faucet main plate. In one embodiment, faucet 100 may include faucet operators such as buttons, touch screens, non-contact sensors for detecting gestures, which may be integrated on operating panel 241. The operation panel 241 may be electrically connected to a main faucet plate (not shown). The faucet operator may receive user operations and send control signals to the faucet motherboard, which may activate the water pump 400 according to the control signals. In another embodiment, the faucet body 200 and the atomizer 300 may be provided with a contact switch or a proximity switch, etc., and the user operation may be understood as the user connecting the atomizer 300 to the faucet body 200, and the contact switch or the proximity switch sends a control signal to the faucet main board when the atomizer 300 is connected to the faucet body 200, and the faucet main board may control the activation of the water pump 400 according to the control signal. When the pumping time of the water pump 400 reaches a preset time, the faucet mainboard can close the water pump 400, so that the overflow phenomenon of the atomizer 300 is avoided.

Typically, the faucet 100 is mounted on the basin of a cabinet or bathroom cabinet, which is typically 80-95cm from the floor. When the atomizer 300 is connected to the faucet 100 and the user opens the faucet 100 to atomize and replenish water, the user needs to bend over for a long time, and the experience feeling is very poor. If the user wants to replenish water to the skin in a more comfortable place, for example, leaning on a sofa, sitting on a stool, or lying in bed, etc., at this moment, the user can detach the atomizer 300 from the faucet main body 200, and then subsequent atomization water replenishing operation can atomize under a very comfortable scene, thereby greatly improving the experience and satisfaction of the user.

The utility model provides a tap 100's atomizer 300 detachably is connected to tap main part 200, and the user can take off atomizer 300 and use under the suitable scene, has improved user's experience greatly and has felt and the satisfaction. In addition, the faucet body 200 has a first pipeline 210 and a second pipeline 220 independent of each other, and the first pipeline 210 is provided with a first valve body 500 to realize the normal function of the faucet 100. A suction pump 400 is provided on the second pipe 220, which may hold water for the atomizer 300. The dual arrangement of the first and second lines 210 and 220 allows the faucet 100 to simultaneously draw water and store water for the nebulizer 300, although the two functions may be used alternatively and without interference. The first and second lines 210 and 220 may be independent of each other such that they are connected to different water sources, respectively, e.g., the second line 220 may be connected to a source of purified water to ensure the purity of the atomized water, thereby improving the flexibility of use of the faucet 100. When the nebulizer 300 is mounted to the faucet body 200 after use, the water pump 400 may be activated to accumulate water to the nebulizer 300 through the second conduit 220. The faucet mainboard can fill the atomizer 300 with water by controlling the water pump 400 to start for a preset time, and the control logic is simple and the cost is low. By arranging the water pump 400, the faucet 100 can store water for the atomizer 300 under a wider range of pressure conditions, and the faucet 100 is more universal. By arranging the water suction pump 400, the reliability of the faucet 100 is higher, and compared with the arrangement of valve parts for controlling the on-off of the second pipeline 220, the production cost of the faucet 100 is reduced.

Illustratively, as shown in FIG. 6, a third conduit 230 may also be disposed within the main faucet body 200. The third pipeline 230 may be formed by various flexible pipes, rigid pipes, or various pipes which may be present in the future, which are known in the art and are not limited herein. The water inlet 231 of the third pipe 230 may be connected to the second pipe 220. In one embodiment, as shown in FIG. 6, the third conduit 230 may include water pipes 230a and 230b. The third pipe 230 may be connected to the second pipe 220 by welding, gluing, or tee fitting, etc. Illustratively, as shown in fig. 6, the water inlet 231 of the third pipe 230 may be connected to the second pipe 220 by a tee 700. The outlet 232 of the third conduit 230 may be located at the intake end 102. The second pipe 220 may include water pipes 221, 222, and 223. The water pipe 221 is connected to the inlet of the tee 700, the water pipes 222 and 230a are respectively connected to the two outlets of the tee 700, and the water pump 400 is connected between the water pipes 222 and 223. In the case that the second pipe 220 is connected to the water purifier, the user can receive the purified water from the water intake end 102 through the water outlet 232 of the third pipe 230. So configured, a user can access water flowing out of the first pipeline 210, such as raw water, at the water access end 102 of the faucet 100. The user may also tap water, such as clean water, from the third conduit 230 at the water intake end 102 of the faucet 100. By providing the third pipe 230, another function of the faucet 100 is added, and the user experience is improved.

For example, as shown in fig. 4-7, in embodiments where faucet body 200 may include upper and lower housings 240, 250, faucet body 200 may also include a mount 260. The mounting base 260 may have various structures, such as a flat plate structure, an arc structure, a frame structure, a fixing post structure, and the like, without limitation. The mounting seat 260 may be an integral structure or a split structure. As shown in fig. 4 and 6, the mounting seat 260 may be located in the accommodating chamber 201. The mounting block 260 may be attached to the upper housing 240 by various means known in the art or that may occur in the future, including but not limited to welding, gluing, snapping, magnetic attraction, screwing, and the like. The mounting seat 260 may be connected to an inner top wall or an inner sidewall of the upper housing 240, which is not limited herein. The directional term "inner" described herein refers to a side of the upper case 240 facing the receiving chamber 201. In this way, the mounting block 260 may be located at a portion above the receiving chamber 201, such that the lower portion of the receiving chamber 201 has relatively complete and independent space for routing piping without undue concern for interfering with the mounting block 260. Illustratively, as shown in fig. 6, the mounting seat 260 has an arc-shaped structure, and the mounting seat 260 is clamped on the inner side wall of the upper housing 240. The water pump 400 may be attached to the mounting base 260 in a variety of ways that are known or that may occur in the future, including but not limited to welding, gluing, snapping, screwing, etc. With the arrangement, the faucet body 200 is divided into an upper part and a lower part, so that the processing, manufacturing and arrangement of various pipelines are easier; moreover, the water pump 400 can be located in the accommodating cavity 201, the upper shell 240 and the lower shell 250 play a role in protecting the water pump 400, the water pump 400 is prevented from being exposed and frequently collided by a user, and the service life of the water pump 400 is prolonged; moreover, the mounting seat 260 can fix the water pump 400, so that the running stability of the water pump 400 is improved; in addition to this, it is easier to handle and route the piping inside the housing chamber 201.

Illustratively, as shown in FIGS. 3-6, the main faucet body 200 may be provided with a mounting hole 202. Mounting hole 202 may be located at any suitable location on faucet body 200, for example, the mounting hole may be located in an upper, middle, or lower portion of faucet body 200. In an embodiment where faucet 100 includes an upper housing 240 and a lower housing 250, mounting holes 202 may be located on upper housing 240 or lower housing 250. The atomizer 300 may include a mounting head 310 at a lower portion thereof. The mounting head 310 may be detachably attached to the mounting hole 202. The mounting head 310 may have various structures as long as it can be detachably inserted into the mounting hole 202, and is not limited thereto. The mounting head 310 may be wholly or partially plugged into the mounting hole 202. With this arrangement, the atomizer can be more easily connected to the faucet body 200, and the atomizer 300 can be more conveniently detached from the faucet body 200. Moreover, machining the mounting hole 202 in the faucet body 200 is relatively simple and easy to machine and manufacture. In addition, the mounting head 310 is located at the lower portion of the atomizer 300, and a user can hold the upper portion of the atomizer 300 and insert the upper portion into the mounting hole 202, so that the operation of the user is facilitated, and the user experience is good.

Illustratively, the faucet body 200 may also include a protective cover (not shown). The shield cover may be fitted to the mounting hole 202. The protective cover may block the mounting hole 202 when the atomizer 300 is not attached to the faucet body 200. With this arrangement, dust or water droplets are prevented from entering the faucet body 200 through the mounting hole 202, and the reliability of the faucet body 200 is improved; and the sanitary dead angle formed on the tap main body 200 is avoided, and the cleaning workload of the user is reduced. In addition, the overall aesthetic degree of the faucet body 200 is also improved, and the user experience is better.

For example, as shown in fig. 3 to 6 and 8, the water storage port 301 may be located on the mounting head 310. The water storage port 301 may be provided with a check valve (not shown). The check valve may be opened when the mounting head 310 is plugged into the mounting hole 202. That is, the check valve is opened only when the mounting head 310 is inserted into the mounting hole 202. So configured, the water storage port 301 may be made watertight after the atomizer 300 is removed from the faucet body 200 by providing a one-way valve.

Illustratively, as shown in fig. 3 and 5, a charging module 600 may be further disposed in the mounting hole 202. The type of the charging module 600 may be various and is not limited herein. It should be noted that the charging module 600 may have a waterproof function. As shown in fig. 6, the nebulizer 300 may also include a battery 320 and nebulizer contacts 331. The atomizer contacts 331 may be electrically connected to the battery 320. The atomizer contacts 331 may be single contact pins, two contact pins, or three contact pins, etc. In some embodiments, the atomizer contacts 331 are three-contact pins, one of which is a signal pin and the other two of which are power pins. The atomizer contacts 331 may be located on the mounting head 310. It is understood that the atomizer contacts 331 may be located on a side wall or a bottom wall of the mounting head 310, and may be protruded or recessed on the wall surface. The charging module 600 may be in electrical contact with the atomizer contacts 331 when the mounting head 310 is plugged into the mounting hole 202. As described above, the atomizer contacts 331 can be electrically connected to the storage battery 320, and therefore, when the mounting head 310 is plugged into the mounting hole 202, the charging module 600 can be electrically connected to the storage battery 320 through the atomizer contacts 331. With this arrangement, when the mounting head 310 is inserted into the mounting hole 202, which corresponds to the charging mode being started, the charging module 600 can automatically charge the storage battery 320 of the nebulizer 300; moreover, contact charging may make charging more reliable and reduce the cost of manufacturing faucet 100 as compared to non-contact charging, such as contactless charging.

Illustratively, as shown in fig. 6, the atomizer 300 may further include a bracket 370, a water tank 340, and an atomizer main plate 350. The water tank 340 may be supported above the bracket 370. All electrical components within the nebulizer 300 may be connected to the nebulizer main board 350. Illustratively, the bracket 370 may be attached to the mounting head 310 by snapping, screwing, gluing, or the like. In some embodiments, the bracket 370 may have a protruding post; the mounting head 310 may be further provided therein with a bracket insertion hole 313, as shown in fig. 8, into which the boss may be inserted so that the bracket 370 may be fixed to the mounting head 310. Illustratively, the mounting head 310 may be further provided with a switch mounting hole 312, and the fogging operation member 311 may be provided on the switch mounting hole 312. The bracket 370 may be provided on the bottom surface thereof with a battery holder 371 and a circuit board holder 372. The atomizer contacts 331 may be electrically connected to the atomizer main plate 350. The secondary battery 320 may be held on the battery holder 371. The atomizer main plate 350 may be held by the circuit board holding portion 372. The battery catch 371 may be held at the end or the middle of the storage battery 320 using a structure known in the art or may occur in the future, but is not limited thereto. In some embodiments, as shown in fig. 10, the battery holders 371 may have a substantially U-shaped structure and be held at both ends of the storage battery 320. The circuit board retaining portions 372 may be retained at the end portions or the middle portion of the atomizer main plate 350 by a structure known in the art or may appear in the future, which is not limited herein. In some embodiments, as shown in fig. 10, the circuit board retainers 372 may have a generally U-shaped configuration and are retained at both ends of the atomizer main plate 350. With the arrangement, the bracket 370 can separate the water tank 340 and the storage battery 320 of the atomizer 300 into two areas, so that the division of main water and electricity arrangement areas is realized to a certain extent, the probability of circuit failure caused by water leakage is reduced, and the performance stability of the atomizer 300 is improved; moreover, by providing the battery holder 371 and the circuit board holder 372 on the bracket 370, the bracket 370 can make the battery 320 and the atomizer main board 350 more stably installed in the atomizer 300, and the bracket 370 can integrally install the main circuit components on the bracket 370, so that the structure of the atomizer 300 can be more compact, which is beneficial to the miniaturization design of the atomizer 300.

For example, as shown in fig. 5 to 7, the bottom of the mounting hole 202 may be provided with a protruding first waterway connector 203. The first waterway connector 203 may be connected to the outlet 225 of the second tube 220. For example, the first waterway connector 203 may be a male connector, and the second pipeline 220 may be sleeved on the male connector. When the mounting head 310 is inserted into the mounting hole 202, the first waterway connector 203 may be connected to the water storage port 301. In this way, when the nebulizer 300 is connected to the faucet body 200, the second pipe 220 may be connected to the water storage port 301 through the first waterway connector 203, and may form a waterway channel for storing water in the nebulizer 300. The charging module 600 may include a first contact mount 610. The first contact mount 610 may be disposed over the first waterway connector 203. The first contact mount 610 may have a tap contact 611 disposed thereon. The tap contacts 611 may be single contact pins, two contact pins, or three contact pins, etc. The faucet contacts 611 may be electrically connected to a faucet main board of the faucet 100. Illustratively, the electrical components within faucet body 200 may all be connected to the main faucet plate. The tap contacts 611 may make electrical contact with the atomizer contacts 331 when the mounting head 310 is plugged into the mounting hole 202. Preferably, the tap contact 611 may be of the same type as the atomizer contact 331, for example, when the atomizer contact 331 is a three-contact pin, the tap contact 611 may also be a three-contact pin. So configured, by providing the first contact mount 610, the faucet contact 611 can be securely positioned within the faucet 100, avoiding loosening of the faucet contact 611. When the mounting head 310 of the nebulizer 300 is connected to the mounting hole 202 of the faucet body 200, the faucet main board can be electrically contacted with the nebulizer contacts 331 through the faucet contacts 611, facilitating charging of the nebulizer 300; meanwhile, the water outlet 225 of the second pipeline 220 in the faucet body 200 can be connected with the water inlet 301 of the atomizer 300, that is, when the mounting head 310 is connected to the mounting hole 202, the faucet 100 can synchronously charge and store water for the atomizer 300, the control logic of the faucet 100 is simpler, and the operation is more convenient.

Illustratively, as shown in fig. 6, the atomizer 300 may further include a second contact mount 330 and a base 380. The second contact mount 330 may be disposed within the mounting head 310. The base 380 may be disposed within the mounting head 310 by snap-fit, threaded connection, adhesive, interference fit, etc. Illustratively, the base 380 may be located below the second contact mount 330. As shown in fig. 8, the base 380 may be provided with a second waterway joint 383 forming the water storage port 301. For example, the second waterway connector 383 may be connected to an inlet port (not shown) of the water tank 340. For example, the second waterway connector 383 may be a male connector, which may be directly or indirectly connected to the water inlet of the water tank 340, so that the second waterway connector 383 may be simultaneously communicated with the water outlet 225 of the second pipeline 220 and the water inlet of the water tank 340. The atomizer contacts 331 may be mounted on the second contact mount 330. The atomizer contacts 331 may pass through the second contact mount 330 and extend below the second contact mount 330. Illustratively, a first through hole 381 may be further disposed on the base 380, and the atomizer contact 331 may pass through the first through hole 381, i.e., the atomizer contact 331 may pass through the second contact mounting seat 330 and the base 380 in sequence. With this arrangement, by providing the second contact mount 330, the atomizer contact 331 can be securely disposed in the mounting head 310, avoiding looseness of the atomizer contact 331. By providing the base 380 with the second waterway connector 383, the atomizer 300 is more easily formed with the water storage opening 301, and is conveniently communicated with the water outlet 225 of the second pipeline 220. In addition, the atomizer contact 331 passes through the second contact mount 330, which makes the atomizer contact 331 easy to contact with the tap contact 611 in a convex state, and the contact alignment is more intuitive and quick.

Illustratively, as shown in fig. 6, the atomizer 300 may further comprise a seal 390. As shown in fig. 9, the base 380 may be provided with a plurality of mounting holes 382. The sealing member 390 may be provided with a plurality of bosses protruding upward, and the plurality of bosses may be mounted to the plurality of fitting holes 382 in a one-to-one correspondence. When the mounting head 310 is plugged into the mounting hole 202, the seal 390 is clamped between the first waterway connector 203 and the second waterway connector 383. With this arrangement, the sealing member 390 can seal the connection position between the mounting head 310 and the mounting hole 202, and prevent water leakage between the first waterway connector 203 and the second waterway connector 383.

Illustratively, as previously described, the atomizer 300 may have an atomizing outlet 302, as shown in fig. 6. The atomizing outlet 302 may be provided with an atomizing member 360. Illustratively, the nebulizer 300 may also have a drain 303. The drain 303 may be located at the top of the nebulizer 300. The atomizer 300 may also include a cover 344. The cover 344 can open and close the excretion portion 303. When the user detaches the nebulizer 300 from the faucet body 200 and completes the skin refilling, the lid 344 is removed and the remaining water in the nebulizer 300 is poured out through the drain port 303. When the water dispenser is used next time, the atomizer 300 may be replenished with water through the faucet body 200, so that the user may use fresh water every time atomization is performed. Some users may add the required additives into the atomizer 300 through the discharge port 303 in order to obtain better moisturizing effect or perform other special treatments on the skin, and the atomized water may be ejected through the atomization outlet 302. So set up, through setting up escape orifice 303, the user moisturizing can be poured out the surplus water in the atomizer 300 after finishing, and the convenience holds new water every time. Moreover, after the user pours the residual water, when inserting the atomizer 300 into the faucet main body 200, in this way, the atomizer 300 is in a water-free state before storing water each time, the capacity of each atomizer 300 is a fixed value, a preset time is set in the faucet main board, and the control of the faucet 100 is simpler. In addition, the user can add required additives through the excretion hole 303, so that different skin care effects of the user can be met, and the satisfaction degree of the user is greatly improved. In addition, during the pumping process, a small amount of gas is inevitably generated in the pipeline in the faucet body 200 and the atomizer 300, and during the operation of the water pump 400, the small amount of gas can be discharged from the discharge port 303, so that the atomizer 300 can be filled with water.

Illustratively, as previously indicated, as shown in fig. 1-4, the faucet 100 may also include an operator panel 241. The faucet main board may be connected to the operation panel 241. Illustratively, the faucet main plate may be connected generally below the operator panel 241. The operation panel 241 may be used to receive a user operation and generate operation information. The user operations may be as previously described and are not described one by one herein. In one embodiment, the faucet 100 can be provided with a water storage operating element so that the user, upon operating the water storage operating element, can receive this action and generate operating information via the operating panel 241. According to the operation information, the faucet main board can control the water pump 400 to start for a predetermined time. With the arrangement, a user can operate the operation panel 241 and further start the water pump 400 through the faucet main board, so that the operation of the faucet 100 is more convenient for the user; the faucet 100 is more intelligent with respect to the water storage of the atomizer 300.

The utility model also provides a waterway system. The water system may include a raw water line, a water purifier, and any of the faucets 100 described above. The outlet of the raw water line may be connected with the inlet 213 of the first line 210. The water outlet of the water purifier can be connected with the water inlet 224 of the second pipeline 220. The water purifier is communicably connected to the faucet 100. Since the faucet 100 has the above technical effects, the waterway system covering the faucet 100 also has the above technical effects, and the detailed description thereof is omitted.

In the description of the present invention, it is to be understood that the orientation or positional relationship indicated by the orientation words such as "front", "rear", "upper", "lower", "left", "right", "horizontal", "vertical", "horizontal" and "top", "bottom", etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner" and "outer" refer to the interior and exterior relative to the contours of the components themselves.

For convenience of description, relative terms of regions, such as "over 8230," "over," "on 8230," "upper surface," "over," and the like, may be used herein to describe the positional relationship of one or more of the components or features with respect to other components or features as illustrated in the figures. It is to be understood that the relative terms of the regions are intended to encompass not only the orientation of the element as depicted in the figures, but also different orientations in use or operation. For example, if an element in the figures is turned over in its entirety, elements "above" or "over" other elements or features would include elements "below" or "beneath" other elements or features. Thus, the exemplary terms "at 8230; \8230; above" may include both orientations "at 8230; \8230; above" and "at 8230; \8230; below". Further, these components or features may also be positioned at various other angles (e.g., rotated 90 degrees or other angles), all of which are intended to be encompassed herein.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, elements, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. Furthermore, it will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that many variations and modifications may be made in accordance with the teachings of the present invention, all within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (14)

1. A faucet, comprising:

the faucet comprises a faucet body, a water inlet pipe and a water taking pipe, wherein the faucet body is provided with a water inlet end and a water taking end, a first pipeline and a second pipeline which are independent of each other are arranged in the faucet body, the first pipeline extends from the water inlet end to the water taking end, and a water inlet of the second pipeline is located at the water inlet end;

a first valve body disposed on the first pipeline;

the atomizer is provided with a water storage port and is detachably connected to the faucet main body, and the water outlet of the second pipeline is connected with the water storage port when the atomizer is connected to the faucet main body;

the water suction pump is arranged on the second pipeline; and

the faucet main board is used for responding to user operation and controlling the water suction pump to be started for a preset time.

2. The faucet of claim 1, wherein a third pipeline is further disposed in the faucet body, the water inlet of the third pipeline is connected to the second pipeline, and the water outlet of the third pipeline is located at the water taking end.

3. The faucet of claim 1, wherein the faucet body includes an upper housing and a lower housing, the upper housing being connected to a top of the lower housing, the upper housing and the lower housing enclosing a receiving cavity that receives the first and second lines;

the faucet main body further comprises a mounting seat located in the accommodating cavity, the mounting seat is connected to the upper shell, and the water suction pump is connected to the mounting seat.

4. The faucet of claim 1, wherein the faucet body is provided with a mounting hole, and the atomizer includes a mounting head at a lower portion thereof, the mounting head being removably insertable into the mounting hole.

5. The faucet of claim 4, wherein the water storage port is located on the mounting head, and a one-way valve is disposed on the water storage port and is open when the mounting head is plugged into the mounting hole.

6. The faucet of claim 4, wherein a charging module is further disposed within the mounting bore, the atomizer further comprising a battery and atomizer contacts electrically connected to the battery, the atomizer contacts being located on the mounting head, the charging module being in electrical contact with the atomizer contacts when the mounting head is plugged into the mounting bore.

7. The faucet of claim 6, wherein the atomizer further comprises a bracket, a water tank, and an atomizer main board, the water tank being supported above the bracket, a battery retaining portion and a circuit board retaining portion being provided on a bottom surface of the bracket, the atomizer contacts being electrically connected to the atomizer main board, the battery retaining portion being retained by the battery retaining portion, and the atomizer main board being retained by the circuit board retaining portion.

8. The faucet of claim 6, wherein a bottom of the mounting hole is provided with a first protruding waterway connector connected to the water outlet of the second pipeline, the first waterway connector being connected to the water storage port when the mounting head is plugged into the mounting hole,

the charging module comprises a first contact mounting seat which is sleeved on the first waterway connector, a faucet contact is arranged on the first contact mounting seat, the faucet contact is electrically connected with a faucet mainboard of a faucet, and the faucet contact is electrically contacted with the atomizer contact when the mounting head is inserted into the mounting hole.

9. The faucet of claim 8, wherein the atomizer further comprises a second contact mount and a base disposed within the mounting head,

the base is fixed in the mounting head, a second waterway connector forming the water storage opening is arranged on the base,

the atomizer contact is installed on the second contact mount pad, the atomizer contact passes the second contact mount pad extends to the below of second contact mount pad.

10. The faucet of claim 9, wherein the atomizer further comprises a sealing member, the base is provided with a plurality of mounting holes, the sealing member is provided with a plurality of upwardly protruding studs, the plurality of studs are mounted to the plurality of mounting holes in a one-to-one correspondence, and the sealing member is clamped between the first waterway connector and the second waterway connector when the mounting head is plugged into the mounting holes.

11. The faucet of claim 1, wherein the atomizer has an atomizing outlet with an atomizing member disposed thereon.

12. The faucet of claim 1, wherein the nebulizer further comprises a drain port located at a top of the nebulizer, the nebulizer further comprising a cover that can open and close the drain port.

13. The faucet of claim 1, further comprising an operator panel, the faucet main board being coupled to the operator panel, the operator panel being configured to receive user operations and generate operation information, the faucet main board being configured to control the water pump to start for the predetermined period of time based on the operation information.

14. A waterway system, comprising:

a raw water pipeline;

a water purifier; and

the faucet of any one of claims 1 to 13,

the water outlet of the raw water pipeline is connected with the water inlet of the first pipeline, and the water outlet of the water purifier is connected with the water inlet of the second pipeline.

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