CN219317738U - Faucet and waterway system - Google Patents

Abstract

Embodiments of the present utility model provide a faucet and waterway system. The tap has a water inlet end and a water outlet end, and the tap includes: the main body is provided with a first pipeline and a second pipeline which are independent from each other, 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 valve body is arranged on the first pipeline; the atomizer, the atomizer has atomizing import and atomizing export, and the atomizer is including setting up the component that absorbs water between atomizing import and atomizing export, and atomizer detachably connects to the main part, and the delivery port of second pipeline is in the atomizer and is in the installation state of installing to the main part and is connected with atomizing import. Compared with parts such as a water tank, the water absorbing component does not need to be provided with a cavity for storing water, so that the size of the water absorbing component is smaller, the cost is lower, the space utilization rate of the faucet is higher, the appearance is more compact, and the manufacturing cost is lower. The applicability of the faucet in the scenes such as a bathroom is higher, and the market competitiveness is higher.

Description

Faucet and waterway system

Technical Field

The utility model relates to the technical field of water taking equipment, in particular to a faucet and a waterway system with the faucet.

Background

As consumer demands for quality of life increase, the function of faucets has evolved toward diversification. Some faucets are provided with atomizers, the atomizers can spray atomized water, and a user can moisturize or supplement water to skin through the atomized water.

In existing faucets having an atomizing function, the atomizer is detachably connected to the main body of the faucet. A water tank is arranged in the atomizer. The water tank may be used to store water when the atomizer is connected to the main body of the faucet. When a user needs to use the atomizer, the atomizer can be removed from the main body. In this way, the stored water in the tank can be tapped off for use in producing atomized water for use by the user.

However, the size of the water tank is large, resulting in an excessively large profile of the tap provided with the atomizer. Thus, the faucet has low applicability in the scenes such as toilets and the like, and has poor market competitiveness.

Disclosure of Invention

In order to at least partially solve the problems of the prior art, according to one aspect of the present utility model, a faucet is provided. The tap has a water inlet end and a water outlet end, and the tap includes: the main body is provided with a first pipeline and a second pipeline which are independent from each other, 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 valve body is arranged on the first pipeline; and an atomizer having an atomization inlet and an atomization outlet, the atomizer including a water absorbing member disposed between the atomization inlet and the atomization outlet, the atomizer detachably connected to the main body, a water outlet of the second pipeline connected to the atomization inlet in an installed state in which the atomizer is installed to the main body.

Compared with parts such as a water tank, the faucet provided by the embodiment of the utility model has the advantages that the water absorbing component is not required to be provided with the cavity for storing water, so that the size of the faucet is smaller, the cost is lower, the space utilization rate of the faucet is higher, the appearance is more compact, and the manufacturing cost is lower. Thus, the faucet has higher applicability and market competitiveness in the scenes such as toilets and the like.

The tap further comprises a water pump, which is arranged on the second pipe. The water pump can provide power, so that water in the second pipeline can be stored in the water absorbing component faster and more smoothly. And the water pump can also control the flow of water passing through the water pump, so that the speed of water storage of the water absorbing component can be controlled.

The main body is also provided with a third pipeline, a water inlet of the third pipeline is connected between a water inlet of the second pipeline and the water suction pump, and a water outlet of the third pipeline is positioned at the water taking end. By arranging the third pipeline, a user can take water flowing out from the water outlet of the third pipeline at the water taking end.

Illustratively, the main 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 to form a receiving chamber for receiving the first and second conduits, the main body further including a mounting seat located within the receiving chamber, the mounting seat being connected to the upper housing, the suction pump being connected to the mounting seat. Thus, the suction pump can be fixed to the inner side of the upper housing through the mounting base. Therefore, the water suction pump can be positioned at the upper part of the accommodating cavity, so that the lower part of the accommodating cavity has a relatively complete and independent space, and the first pipeline and the like can be conveniently arranged. In addition, the water pump can be located and hold the intracavity, and upper casing and lower casing can play the guard action to the water pump, avoid the water pump to expose and destroyed by external force, have prolonged the life of water pump. And the water pump can be fixed by the mounting seat, so that the running stability of the water pump can be improved. In addition, the upper shell and the lower shell can play a role in sound insulation, so that the influence of noise generated during operation of the water pump on a user is reduced.

Illustratively, the 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 mounting hole can play the effect of location to can make the atomizer more light and accurately connect to the main part. The atomizer is more convenient to assemble and disassemble with the main body. And, because the installation head is located the lower part of atomizer, the user can realize the atomizer through the upper portion that holds the atomizer, therefore the operation is comparatively convenient, and user's experience is felt better.

Illustratively, the atomizing inlet is located on the mounting head, the atomizing inlet is provided with a one-way valve, the water absorbing member is located between the one-way valve and the atomizing outlet, and the one-way valve is conducted when the mounting head is plugged into the mounting hole. When the mounting head is taken out of the mounting hole, the one-way valve can be closed. Therefore, the water stored in the water absorbing member cannot flow out from the atomization inlet through the one-way valve, and the waste of the water can be avoided.

Illustratively, a body contact mount is disposed within the mounting bore, the atomizer further including a charging module, the body contact mount being in electrical contact with the charging module when the mounting head is plugged into the mounting bore. Like this, when the installation head pegged graft to the mounting hole, the main part can charge to the module that charges through main part contact mount pad. The charging module may power the relevant components within the atomizer when the atomizer is removed from the main body. Thus, the atomizer is more convenient to use.

Illustratively, the bottom of installation head is provided with waterway joint and cover and establishes the connecting seat on waterway joint, and atomizing import sets up on waterway joint, and the module that charges includes battery, atomizing contact mount pad and control panel, atomizing contact mount pad are located the installation head, are provided with the atomizing contact who is connected with battery and control panel electricity on the atomizing contact mount pad, are provided with the main part contact on the main part contact mount pad, and the main part contact is pegged graft to the mounting hole with atomizing contact electricity when the installation head. The faucet has simple structure and is convenient to manufacture.

Illustratively, the atomizer includes a center tube sleeved with a water absorbing member. The central tube can prevent the water absorbing member from being damaged by external force. In addition, the central tube can prevent the water stored in the water absorbing member from being polluted by external dust and other dirt.

Illustratively, the atomizer outlet is provided with an atomizer, and the atomizer further comprises an elastic member abutting the water absorbing member, the elastic member being configured to apply a force to the water absorbing member toward the atomizer. The elastic member can be compressed so as to tightly press the water absorbing member against the surface of the atomizing member, thereby ensuring that water stored in the water absorbing member can smoothly reach the atomizing member.

Illustratively, the absorbent member is a cotton swab. The water absorbing member using the cotton swab has the advantages of low manufacturing cost, strong water storage capacity and the like.

According to another aspect of the present utility model, there is also provided a waterway system. The waterway system comprises: the water purifier comprises a raw water pipeline, a water purifier and any faucet, wherein a water outlet of the raw water pipeline is connected with a water inlet of a first pipeline, and a water outlet of the water purifier is connected with a water inlet of a second pipeline. Thus, the water purifier can provide purified water, thereby improving the atomization effect of the atomizer.

In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description section. This summary 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.

Advantages and features of the utility model are described in detail below with reference to the accompanying drawings.

Drawings

The following drawings are included to provide an understanding of the utility model and are incorporated in and constitute a part of this specification. Embodiments of the present utility model and their description are shown in the drawings to explain the principles of the utility model. In the drawings of which there are shown,

FIG. 1 is a cross-sectional view of a faucet according to an exemplary embodiment of the present utility model;

FIG. 2 is an enlarged view of a portion of the faucet shown in FIG. 1;

fig. 3 is a perspective view of the body shown in fig. 1;

fig. 4 is a perspective view of the atomizer shown in fig. 1; and

fig. 5 is a partial cross-sectional view of the atomizer shown in fig. 4.

Wherein the above figures include the following reference numerals:

100. a tap; 101. a water inlet end; 102. a water intake end; 200. a main body; 201. an upper housing; 202. a lower housing; 203. a receiving chamber; 204. a mounting base; 205. a mounting hole; 206. an operation panel; 210. a first pipeline; 220. a second pipeline; 221. a first section; 222. a second section; 223. a third section; 224. a fourth section; 230. a third pipeline; 240. a main body contact mounting base; 241. a body contact; 250. a tee joint; 310. a valve body; 320. a handle; 400. an atomizer; 401. an atomization inlet; 402. an atomization outlet; 403. a mounting head; 410. a water absorbing member; 420. a one-way valve; 430. a charging module; 431. an atomization contact mounting base; 431a, atomizing contacts; 432. a storage battery; 433. a control board; 433a, keys; 440. a waterway joint; 450. a connecting seat; 460. a central tube; 461. an upper section; 462. a lower section; 470. an atomizing member; 480. an elastic member; 491. an annular tray; 492. an end cap; 493. an annular support plate; 494. a sleeve is arranged; 495. running a sleeve; 500. and a water pump.

Detailed Description

In the following description, numerous details are provided to provide a thorough understanding of the utility model. However, it will be understood by those skilled in the art that the following description illustrates preferred embodiments of the utility model by way of example only and that the utility model may be practiced without one or more of these details. Furthermore, some technical features that are known in the art have not been described in detail in order to avoid obscuring the utility model.

Embodiments of the present utility model provide a faucet. A tap may be provided at a terminal end of the water pipe to control the opening and closing of the water pipe. The faucet has wide application in kitchen, toilet and other scenes. The faucet according to the embodiment of the present utility model will be described in detail with reference to specific embodiments.

As shown in fig. 1-5, the faucet 100 may have a water intake end 101 and a water intake end 102. The water inlet 101 may be adapted to be connected to a water source. The water source includes, but is not limited to, municipal waterways or tanks. The water source may supply water. Water may enter faucet 100 through intake end 101 and then exit through intake end 102. The user may access the water from the water intake 102 for cooking or drinking, etc.

The faucet 100 may include a body 200, a valve body 310, and an atomizer 400.

The body 200 may have a first conduit 210 and a second conduit 220. The first and second lines 210, 220 may be independent of each other. That is, the first and second pipes 210 and 220 do not communicate within the body 200. The first conduit 210 may extend from the water intake end 101 to the water intake end 102. As such, water supplied from the water source may flow out through the first pipe 210 of the main body 200. The water inlet of the second conduit 220 may be located at the water inlet end 101. The first conduit 210 and the second conduit 220 may be connected to the same water source; or the first conduit 210 and the second conduit 220 may be connected to different sources of water. Illustratively, the first conduit 210 may be connected to a raw water source. In this way, the user can take in raw water flowing out through the first pipe 210 at the water taking end 102. Thus, the user can access the domestic water through the first pipe 210. The second pipe 220 may be connected to a purified water source such as a water purifier. This will be described in detail below.

Illustratively, the body 200 may include a body housing. The first conduit 210 and the second conduit 220 may be located within the body housing. The first and second lines 210 and 220 may protect the first and second lines 210 and 220. In some embodiments, the body 200 may include an upper housing 201 and a lower housing 202. The upper case 201 may be connected to the top of the lower case 202. The upper case 201 and the lower case 202 may surround to form the receiving chamber 203. The receiving chamber 203 may receive the first and second pipes 210 and 220.

The valve body 310 may be disposed on the first pipe 210. The valve body 310 may employ various types of valve bodies known in the art or that may occur in the future, including but not limited to manual valve bodies or electric valve bodies. The valve body 310 may control the first conduit 210 to open and close. Specifically, the valve body 310 may change the opening degree. When the opening degree of the valve body 310 is zero, the first pipe 210 is disconnected, and water cannot pass through the valve body 310. When the opening of the valve body 310 is greater than zero, water may pass through the valve body 310 and a user may take water out of the first conduit 210 at the water intake end 102. By varying the opening degree of the valve body 310, the flow rate of water passing through the valve body 310 can be controlled. Illustratively, the first pipe 210 may include a cold water pipe, a hot water pipe, and a mixed water pipe. One end of the cold water pipe may be connected to a cold water source. One end of the hot water pipe may be connected to a hot water source. The other end of the cold water pipe and the other end of the hot water pipe may be connected to the water inlet of the valve body 310, respectively. One end of the mixing water pipe may be connected to the water outlet of the valve body 310. The other end of the mixing water tube may be located at the intake end 102. As such, the cold water pipe may supply cold water, the hot water pipe may supply hot water, and the valve body 310 may control the ratio of the cold water and the hot water, so that the temperature of water passing through the mixed water pipe may be controlled. Illustratively, the faucet 100 may also include a handle 320. The handle 320 may be provided on the body 100. The handle 320 may be connected to the valve body 310 to control the opening degree of the valve body 310. Illustratively, the faucet 100 may also include an operator panel 206. The operation panel 206 may be provided on the main body 100. Specifically, the operation panel 206 may be disposed on the top surface of the upper case 201. The valve body 310 may also be connected to the operation panel 206. The user can control the opening degree of the valve body 310 through the operation panel 206.

The atomizer 400 may employ various types of atomizers known in the art or as may occur in the future. The atomizer 400 has an atomization inlet 401 and an atomization outlet 402. The atomizer 400 may include a water absorbing member 410. The water absorbing member 410 may be disposed between the atomizing inlet 401 and the atomizing outlet 402. At least part of the water absorbing member 410 may be made of a water absorbing material. The water absorbing material includes, but is not limited to, sponge or cotton. Absorbent materials are known to those skilled in the art and the improvement of the present utility model is not in the materials themselves, and they will not be described in detail herein in order to avoid confusion. The water absorbing member 410 may be used to store water. Specifically, after entering through the atomizing inlet 401, the water may be adsorbed by the water absorbing member 410, thereby being stored in the water absorbing member 410. The water stored in the water absorbing member 410 may flow out to form atomized water in the atomizer 400. Atomized water may be ejected through an atomization outlet 402. The atomized water sprayed from the atomization outlet 402 is used for skin moisturizing and the like. The amount of water stored in the water absorbing member 410 can satisfy the user's requirement of single use of the atomizer 400. In some embodiments, the absorbent member 410 may be a cotton swab. The water absorbing member 410 using the cotton swab has advantages of low manufacturing cost, strong water storage capacity, and the like.

The atomizer 400 may be removably connected to the body 200 by any suitable means, such as a snap fit, plug fit, or connector connection. The water outlet of the second pipe 220 may be connected with the atomizing inlet 401 of the atomizer 400 when the atomizer 400 is in the mounted state to the main body 200.

In practical use, when the atomizer 400 is in the mounted state to the main body 200, water can pass through the water outlet of the second pipe 220 and the atomization inlet 401 of the atomizer 400 in sequence, so that it can be stored in the water absorbing member 410. When a user desires to use the nebulizer 400, the nebulizer 400 may be removed from the body 200 and then used in a bedroom, bathroom, or any other suitable setting. When the use is completed, the user may reinstall the atomizer 400 to the main body 200, and the water may pass through the water outlet of the second pipe 220 and the atomization inlet 401 of the atomizer 400 in sequence, so that it may be stored in the water absorbing member 410 for the next use. Of course, the user may use the atomizer 400 while the atomizer 400 is in the mounted state to the main body 200. In order to enhance the atomization effect, as described above, the second pipe 220 may be connected to a purified water source such as a water purifier. Thus, the impurities in the purified water are less, and the atomized water formed by the purified water has less damage to the skin, so that the atomization effect can be improved.

The utility model also provides a waterway system. The waterway system may include a raw water pipeline, a water purifier, and any of the faucets 100 provided by the present utility model. The water inlet of the raw water pipeline may be connected to a water source. The water outlet of the raw water pipe may be connected with the water inlet of the first pipe 210. The water outlet of the water purifier may be connected with the water inlet of the second pipeline 220. Thus, the water purifier can provide purified water, so that the atomization effect of the atomizer 400 can be improved.

The tap 100 provided by the present utility model, since the atomizer 400 is detachably connected to the main body 200, allows the atomizer 400 to be removed from the main body 200 when a user needs to use the atomizer 400. In this way, the nebulizer 400 can be used regardless of whether the user is standing, sitting, or moving, etc., without having to walk to the tap and bend over to aim the face at the tap. Thus, the faucet 100 is better experienced in use and more competitive in the market. And, compared to the water tank, the water absorbing member 410 does not need to be provided with a cavity for storing water, so that the size is smaller and the cost is lower, thereby resulting in higher space utilization of the faucet 100, more compact appearance and lower manufacturing cost. Thus, the faucet 100 has high applicability in a bathroom or the like, and has high market competitiveness. In addition, since the main body 200 has the first and second pipes 210 and 220 therein, which are independent from each other, the first pipe 210 can be used for taking water conventionally, and the second pipe 220 can be used for storing water for the atomizer 400, the tap 100 can simultaneously realize the functions of taking water conventionally and storing water for the atomizer 400. Of course, the functions of taking water and storing water for the atomizer 400 can be alternatively used, and the two functions are not interfered with each other.

Illustratively, the faucet 100 may also include a suction pump 500. The suction pump 500 may be disposed on the second pipe 220. The water pump 500 may employ various types of water pumps known in the art or that may occur in the future, including but not limited to miniature self priming pumps. The water pump 500 may provide power so that water in the second pipe 220 may be more quickly and smoothly stored in the water absorbing member 410. Also, the suction pump 500 may also control the flow rate of water passing therethrough, so that the speed at which the water is stored by the water absorbing member 410 may be controlled.

Illustratively, the body 200 may also have a third conduit 230. The water inlet of the third pipe 230 may be connected between the water inlet of the second pipe 220 and the suction pump 500. Illustratively, the second conduit 220 may include a first segment 221, a second segment 222, a third segment 223, and a fourth segment 224. One end of the first section 221 may be configured as a water inlet of the second conduit 220. The other end of the first section 221 may be connected to one end of the second section 222. The other end of the second section 222 may be connected to a water inlet of the third conduit 230. One end of the third section 223 may be connected to a junction of the other end of the first section 221 and one end of the second section 222. Illustratively, the junction may be provided with a tee 250. As such, the first segment 221, the second segment 222, and the third segment 223 may be connected by a tee 250. Of course, the first, second and third sections 221, 222, 223 may be joined directly by any suitable means, such as welding. The other end of the third section 223 may be connected to a water inlet of the suction pump 500. One end of the fourth section 224 may be connected to a water outlet of the water pump 500. The other end of the fourth segment 224 may be configured as the water outlet of the second conduit 220. The water outlet of the third conduit 230 may be located at the water intake end 102. In this way, the third conduit 230 may flow out the same water as in the second conduit 220, such as clean water. By providing the third conduit 230, a user may access water exiting the outlet of the third conduit 230 at the water intake end 102. In embodiments where the first and second conduits 210, 220 are connected to different sources of water, the water exiting the first and third conduits 210, 230 is not the same, and a user may access different water at the water intake 102, which may enhance the use experience.

Illustratively, in embodiments in which the body 200 includes an upper housing 201 and a lower housing 202, the body 200 may further include a mount 204 positioned within the receiving cavity 203. The mount 204 may be connected to the upper housing 201. The suction pump 500 may be connected to the mount 204. The mounting block 204 may have a variety of structures, such as a flat plate structure, an arc structure, a frame structure, or a fixed column structure. The mounting base 204 may be of a unitary or split type. In this way, the suction pump 500 may be fixed to the inside of the upper housing 201 through the mounting seat 204. Accordingly, the suction pump 500 may be located at an upper portion of the receiving chamber 203 such that a lower portion of the receiving chamber 203 has a relatively complete and independent space, thereby facilitating the arrangement of the first pipe 210 and the like. In addition, the water pump 500 may be located in the accommodating cavity 203, and the upper case 201 and the lower case 202 may protect the water pump 500, so as to prevent the water pump 500 from being damaged by external force due to exposure, and prolong the service life of the water pump 500. And, the mounting base 204 may fix the water pump 500, so that the stability of the operation of the water pump 500 may be improved. Also, the upper case 201 and the lower case 202 may play a role of sound insulation, thereby reducing the influence of noise generated when the suction pump 500 operates on the user.

Illustratively, the body 200 may have mounting holes 205 disposed therein. The mounting holes 205 may be provided at any suitable location on the body 200, such as an upper portion, a middle portion, or a lower portion of the body 200. In an embodiment in which the main body 200 includes the upper case 201 and the lower case 202, the mounting hole 205 may be provided on the upper case 201. The atomizer 400 may include a mounting head 403 at a lower portion thereof. The mounting head 403 is removably plugged into the mounting hole 205. Mounting head 403 may be fully or partially plugged into mounting hole 205. So configured, the mounting holes 205 may function as a location, so that the atomizer 400 may be more easily and accurately coupled to the main body 200. The disassembly and assembly of the atomizer 400 and the main body 200 are more convenient. Moreover, since the mounting head 403 is located at the lower part of the atomizer 400, the user can realize the atomizer 400 by holding the upper part of the atomizer 400, so that the operation is convenient and the experience of the user is good.

Illustratively, the atomizing inlet 401 may be located on the mounting head 403. The atomizer 400 may also include a one-way valve 420. The one-way valve 420 may be provided at the atomizing inlet 401. The water absorbing member 410 may be located between the one-way valve 420 and the atomizing outlet 402. The check valve 420 is turned on when the mounting head 403 is plugged into the mounting hole 205. In this way, water passing through the atomizing inlet 401 can pass through the check valve 420 to be stored in the water absorbing member 410. After the mounting head 403 is removed from the mounting hole 205, the check valve 420 may be closed. In this way, the water stored in the water absorbing member 410 cannot flow out of the atomizing inlet 401 through the check valve 420, so that the waste of water can be avoided.

To power the relevant components within the nebulizer 400, a battery may be provided within the nebulizer 400 or the nebulizer 400 may be connected to a power source via a power cord. In some embodiments, a body contact mount 240 may be disposed within the mounting hole 205. The atomizer 400 may also include a charging module 430. The body contact mount 240 makes electrical contact with the charging module 430 when the mounting head 403 is plugged into the mounting hole 205. In this way, when mounting head 403 is plugged into mounting hole 205, body 200 may charge charging module 430 via body contact mount 240. The charging module 430 may power the relevant components within the nebulizer 400 when the nebulizer 400 is removed from the body 200. In this way, the use of the atomizer 400 is more convenient.

Illustratively, the bottom of mounting head 403 may be provided with waterway adapter 440 and connector hub 450. The connecting base 450 may be sleeved on the waterway connector 440. In some embodiments, the connection base 450 may be connected with the waterway adapter 440 by an interference fit. The connection base 450 may be plugged with the check valve 420. The atomization inlet 401 may be provided on the waterway connector 440. Waterway connector 440 connects to the outlet of second tube 220 when mounting head 403 is plugged into mounting hole 205. The charging module 430 may include a battery 432, an atomizing contact mount 431, and a control board 433. An atomizing contact mount 431 may be located on the mounting head 403. The atomizing contact mount 431 may be provided with an atomizing contact 431a thereon. The atomizing contact 431a may be electrically connected with the battery 432 and the control board 433. The body contact mount 240 may have a body contact 241 disposed thereon. The body contact 241 makes electrical contact with the atomizing contact 431a when the mounting head 403 is plugged into the mounting hole 205. In some embodiments, the atomizing contact 431a may include three contact pins, one of which is a signal pin and the other two of which are power pins. The body contacts 241 may be in one-to-one correspondence with the atomizing contacts 431a. When the mounting head 403 is plugged into the mounting hole 205, the main body contact 241 is in electrical contact with the atomizing contact 431a, so that the battery 432 can be charged. When the atomizer 400 is removed, the battery 432 may be powered. The capacity of the battery 432 may be arbitrary. In some embodiments, the capacity of battery 432 may be 300mA. For example, when nebulizer 400 is removed, battery 432 may continue to be powered for 20 minutes. The control board 433 may control the relevant components on the atomizer 400. So arranged, the faucet 100 is compact in construction and easy to manufacture.

Illustratively, the atomizer 400 may include a center tube 460. The central tube 460 may be sleeved with the water absorbing member 410. The check valve 420 may be disposed within the center tube 460. Illustratively, the center tube 460 and the absorbent member 410 may be coaxially disposed. The center tube 460 may be a single piece or separate pieces. Illustratively, the center tube 460 may include an upper segment 461 and a lower segment 462. The upper segment 461 and lower segment 462 can be connected in any suitable manner. In some embodiments, one of the upper and lower segments 461, 462 may be provided with two annular grooves distributed sequentially along the axis of the center tube 460, and the other of the upper and lower segments 461, 462 may be provided with two sets of protrusions. The two sets of projections can be inserted into the two annular grooves in a one-to-one correspondence so that the upper segment 461 and the lower segment 462 can be connected. Illustratively, the sealing ring may be sandwiched between the upper segment 461 and the lower segment 462, thereby providing a better seal. The radial dimensions of the upper segment 461 and the lower segment 462 can be the same or different. In the embodiment shown in the figures, the radial dimension of the upper segment 461 may be greater than the radial dimension of the lower segment 462. The center tube 460 may prevent the water absorbing member 410 from being damaged by an external force. Also, the center pipe 460 can prevent the water stored in the water absorbing member 410 from being contaminated by dirt such as external dust.

Illustratively, an annular tray 491 may be provided on an outer side of the upper segment 461. An end cap 492 may be provided on the annular tray 491. The annular tray 491 and end cap 492 may be connected by any suitable means, such as snap fit. The end cap 492 may be disposed opposite the mounting head 403. The atomizing outlet 402 may be provided on the end cap 492. The control plate 433 may be accommodated in a space formed by the annular tray 491 and the end cap 492. The control plate 433 may be secured to the annular tray 491. The control panel 433 may be provided with a key 433a. The key 433a may pass through the ring-shaped tray 491 so as to be exposed to the outside of the atomizer 400. The user may control the relevant components within nebulizer 400 by controlling keys 433a.

The battery 432 may be secured to the annular tray 491. The side of the annular tray 491 facing away from the end cap 492 may be provided with a catch. The battery 432 may be secured to a catch on the annular tray 491. Illustratively, the atomizer 400 may further include an upper sleeve 494 and a lower sleeve 495. The upper end of the upper sleeve 494 may be connected to an annular tray 491. The lower end of the upper sleeve 494 may be sealingly connected to the upper segment 461. Upper bushing 494 may seal battery 432 therein, thereby protecting battery 432. The upper end of the lower sleeve 495 may be connected to the upper sleeve 494 by any suitable means, such as a snap fit. The lower end of the lower sleeve 495 may be connected to the connection seat 450. An atomizing contact mount 431 and waterway adapter 440 may be disposed within lower sleeve 495. The lower sleeve 495 may protect the connection block 450, the atomizing contact mounting block 431, and the waterway connector 440. The annular tray 491, end cap 492, upper sleeve 494 and lower sleeve 495 may be configured as a housing of the atomizer 400.

Illustratively, the atomizing outlet 402 may have an atomizer 470 disposed thereon. The atomizing member 470 may employ various types of atomizing members known in the art or which may occur in the future, including, but not limited to, microporous atomizing sheets. Because the frequency and the working voltage of the microporous atomizing sheet are relatively small, the microporous atomizing sheet does not need to be put into water for working, and the atomizing work is to spray water from the micropores in the middle through current. The size of the atomizing member 470 may be arbitrary. In some embodiments, the atomizing member 470 may be selected from atomizing sheets having diameters between 14mm and 18 mm. Further, the diameter of the atomizing plate may be 16mm. The outside of the atomizing sheet can be sleeved with a sealing ring. The diameter of the sealing ring may be between 18mm and 22mm, for example 18mm, 20mm or 22mm. The amount of atomization of the atomizer 470 may be between 2ml/min and 5 ml/min.

Illustratively, the atomizer 400 may further include a resilient member 480 that abuts the absorbent member 410. The elastic member 480 may serve to apply a force to the water absorbing member 410 toward the atomizing member 470. The resilient member 480 includes, but is not limited to, a spring. One end of the resilient member 480 may be connected to any suitable component such as the check valve 420. The other end of the elastic member 480 may be connected to the water absorbing member 410. The elastic member 480 may be compressed so that the water absorbing member 410 may be tightly pressed against the surface of the atomizer 470, thereby ensuring that water stored in the water absorbing member 410 can smoothly reach the atomizer 470. The check valve 420, the elastic member 480 and the water absorbing member 410 may be coaxially disposed inside the center tube 460. Illustratively, the inner sidewall of the upper sleeve 494 at an end thereof adjacent to the atomizing outlet 402 may be provided with an annular support plate 493. The atomizing member 470 may be disposed on the annular supporting plate 493.

In the description of the present utility model, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front", "rear", "upper", "lower", "left", "right", "transverse", "vertical", "horizontal", and "top", "bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, merely for convenience of describing the present utility model and simplifying the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, without limiting the scope of protection of the present utility model; the orientation terms "inner" and "outer" refer to the inner and outer relative to the outline of the components themselves.

For ease of description, regional relative terms, such as "above … …," "above … …," "upper surface at … …," "above," and the like, may be used herein to describe regional positional relationships of one or more components or features to other components or features illustrated in the figures. It will be understood that the relative terms of regions include not only the orientation of the components illustrated in the figures, but also different orientations in use or operation. For example, if the element in the figures is turned over entirely, elements "over" or "on" other elements or features would then be included in cases where the element is "under" or "beneath" the other elements or features. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". Moreover, these components or features may also be positioned at other different angles (e.g., rotated 90 degrees or other angles), and all such cases 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 in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, components, assemblies, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be implemented in sequences other than those illustrated or described herein.

The present utility model has been illustrated by the above-described embodiments, but it should be understood that the above-described embodiments are for purposes of illustration and description only and are not intended to limit the utility model to the embodiments described. In addition, it will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that many variations and modifications are possible in light of the teachings of the utility model, which variations and modifications are within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (12)

1. A faucet having a water intake end and a water intake end, said faucet comprising:

a main body having a first pipe and a second pipe independent from each other, the first pipe extending from the water intake end to the water intake end, a water inlet of the second pipe being located at the water intake end;

the valve body is arranged on the first pipeline; and

the atomizer, the atomizer has atomizing import and atomizing export, the atomizer is including setting up the atomizing import with the atomizing export between the component that absorbs water, atomizer detachably is connected to the main part, the delivery port of second pipeline is in the atomizer is in install to under the installation state of main part with atomizing import connection.

2. The faucet of claim 1, further comprising a water pump disposed on the second conduit.

3. The faucet of claim 2, wherein the main body further has a third conduit, a water inlet of the third conduit being connected between a water inlet of the second conduit and the suction pump, a water outlet of the third conduit being located at the water intake end.

4. The faucet of claim 2, wherein the main 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 conduit and the second conduit, the main body further including a mount located within the receiving cavity, the mount being connected to the upper housing, the suction pump being connected to the mount.

5. Tap according to claim 1, wherein the body is provided with a mounting hole, and the atomizer comprises a mounting head at a lower portion thereof, the mounting head being detachably inserted into the mounting hole.

6. The faucet of claim 5, wherein the atomizing inlet is located on the mounting head, a one-way valve is provided at the atomizing inlet, the water absorbing member is located between the one-way valve and the atomizing outlet, and the one-way valve is turned on when the mounting head is plugged into the mounting hole.

7. The faucet of claim 5, wherein a body contact mount is disposed within the mounting bore, the atomizer further comprising a charging module, the body contact mount being in electrical contact with the charging module when the mounting head is plugged into the mounting bore.

8. The faucet of claim 7, wherein the bottom of the mounting head is provided with a waterway connector and a connecting seat sleeved on the waterway connector, the atomization inlet is arranged on the waterway connector, the charging module comprises a storage battery, an atomization contact mounting seat and a control board, the atomization contact mounting seat is positioned on the mounting head, an atomization contact electrically connected with the storage battery and the control board is arranged on the atomization contact mounting seat, a main body contact is arranged on the main body contact mounting seat, and the main body contact is electrically contacted with the atomization contact when the mounting head is plugged into the mounting hole.

9. The faucet of claim 1, wherein the atomizer includes a center tube that is sleeved over the absorbent member.

10. Tap according to claim 1, wherein an atomizer is provided on the atomizer outlet, the atomizer further comprising an elastic member abutting the water absorbing member, the elastic member being adapted to exert a force on the water absorbing member towards the atomizer.

11. Tap according to claim 1, characterised in that the water-absorbing member is a cotton stick.

12. A waterway system, comprising: a raw water pipeline, a water purifier and the tap as claimed in any one of claims 1-11, 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.

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