CN216430572U - Water outlet assembly and water outlet device - Google Patents

Abstract

The utility model provides a go out water subassembly and water installation, it includes the play water base to go out the water subassembly, first play water mechanism and second play water mechanism, it is equipped with first portion of intaking, second portion of intaking and play water portion to go out the water base, first portion of intaking and second portion of intaking intercommunication play water portion, first play water mechanism and second play water mechanism install in a water base, first play water mechanism with first portion of intaking and second portion of intaking simultaneously with go out water portion switch-on, first play water mechanism with first portion of intaking, the second portion of intaking simultaneously with go out water portion switch-on, the second goes out water mechanism with first portion of intaking, second portion of intaking simultaneously with go out water portion switch-on. Based on above-mentioned structure, the rivers that flow in from first portion of intaking flow into first play water mechanism through going out the water base, and the rivers that flow in from the second portion of intaking flow through going out water base second play water mechanism, first play water mechanism and second play water mechanism can supply water to a water portion jointly like this to the large-traffic play water of a water portion has been realized.

Description

Water outlet assembly and water outlet device

Technical Field

The utility model relates to a bathroom product technical field particularly, relates to a go out water subassembly and water installation.

Background

Along with the continuous development of bathroom product technology, various bathroom products are produced in the life of people, for example, shower faucet, shower head and the like, the functional requirements of people on shower devices are more and more increased at present, the water yield of most shower devices in the market is limited by the sectional area of a flow channel of a valve core due to the structural limitation, and the water yield of the shower device is lower, so that the use requirements of users cannot be met.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a go out water subassembly and water installation to solve above problem.

The embodiment of the utility model provides an above-mentioned purpose is realized through following technical scheme.

In a first aspect, an embodiment of the present invention provides a water outlet assembly, the water outlet assembly includes a water outlet base, a first water outlet mechanism and a second water outlet mechanism, the water outlet base is provided with a first water inlet portion, a second water inlet portion and a water outlet portion, the first water inlet portion and the second water inlet portion communicate with the water outlet portion, the first water outlet mechanism and the second water outlet mechanism are installed on the water outlet base, the first water outlet mechanism simultaneously communicates the first water inlet portion and the second water inlet portion with the water outlet portion, when the first water outlet mechanism communicates the first water inlet portion and the second water inlet portion with the water outlet portion, the second water outlet mechanism simultaneously communicates the first water inlet portion and the second water inlet portion with the water outlet portion.

In a second aspect, the embodiment of the present invention further provides a water outlet device, including the above-mentioned water outlet assembly and the water outlet member, the water outlet member communicates with the water outlet portion of the water outlet assembly.

Compared with the prior art, the utility model provides a go out water subassembly and play water installation, through construct with first portion of intaking at first play water, the second portion of intaking and play water portion switch-on in, the second goes out water mechanism with first portion of intaking, the second portion of intaking simultaneously with a switch-on of play water portion, therefore, rivers that flow in from first portion of intaking can flow in first play water mechanism through going out the water base, the rivers that flow in from the second portion of intaking can pass through a water base second play water mechanism, first play water mechanism and second play water mechanism can supply water to a water portion jointly like this, thereby improve the water yield of play water portion more than the one time at least, the large-traffic play water of play water portion has been realized.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a water outlet assembly provided in an embodiment of the present invention in an assembled state.

Fig. 2 is a schematic cross-sectional structure view of the water outlet assembly shown in fig. 1.

FIG. 3 is a schematic structural view of the water outlet base of the water outlet assembly shown in FIG. 1.

Fig. 4 is a schematic longitudinal sectional structure of the water outlet base shown in fig. 3.

Fig. 5 is an exploded view of the water outlet assembly shown in fig. 1.

Fig. 6 is a schematic structural view of another water outlet assembly provided by the embodiment of the present invention in an assembled state.

Fig. 7 is a schematic view of a partial structure of a water outlet device in a split state according to an embodiment of the present invention.

Detailed Description

In order to make the technical field person understand the scheme of the present invention better, the following will combine the drawings in the embodiments of the present invention to clearly and completely describe the technical scheme in the embodiments of the present invention. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to limit the invention to the precise embodiments disclosed. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention provides a water outlet assembly 200, where the water outlet assembly 200 includes a water outlet base 230, a first water outlet mechanism 210, and a second water outlet mechanism 220.

The outlet base 230 is provided with a first water inlet portion 2331, a second water inlet portion 2332 and a water outlet portion 2333, the first water inlet portion 2331 and the second water inlet portion 2332 are communicated with the water outlet portion 2333, and the first water outlet mechanism 210 and the second water outlet mechanism 220 are mounted on the outlet base 230. The first outlet mechanism 210 connects the first inlet 2331 and the second inlet 2332 to the outlet 2333 at the same time, and the second outlet mechanism 220 connects the first inlet 2331 and the second inlet 2332 to the outlet 2333 at the same time, while the first outlet mechanism 210 connects the first inlet 2331 and the second inlet 2332 to the outlet 2333 at the same time.

In the water outlet assembly 200 according to the embodiment of the present invention, when the first water outlet mechanism 210 connects the first water inlet portion 2331 and the second water inlet portion 2332 to the water outlet portion 2333, the second water outlet mechanism 220 connects the first water inlet portion 2331 and the second water inlet portion 2332 to the water outlet portion 2333, so that the water flowing in from the first water inlet portion 2331 can flow into the first water outlet mechanism 210 through the water outlet base 230, and the water flowing in from the second water inlet portion 2332 can flow into the second water outlet mechanism 220 through the water outlet base 230, so that the first water outlet mechanism 210 and the second water outlet mechanism 220 can supply water to the water outlet portion 2333 together, because the sum of the cross-sectional area of the flow passage of the first water outlet mechanism 210 and the cross-sectional area of the flow passage of the second water outlet mechanism 220 is greater than the flow passage cross-sectional area of a single water mixing valve core, and the sum of the cross-sectional areas of the flow passage of the first water outlet mechanism 210 and the second water outlet mechanism 220 is greater than at least one time of the flow passage of the single water outlet mechanism, thus, the water outlet amount of the water outlet portion 2333 is increased at least twice, and a large flow of water is discharged from the water outlet portion 2333.

In this embodiment, the water outlet base 230 includes a base body 233, a first mounting body 231 and a second mounting body 232, the first mounting body 231 and the second mounting body 232 are disposed on the base body 233, the first water inlet portion 2331, the second water inlet portion 2332 and the water outlet portion 2333 are disposed on the base body 233, and the water outlet portion 2333 is communicated with the first water inlet portion 2331 and the second water inlet portion 2332 through a cavity in the base body 233.

In this embodiment, the first and second water inlet portions 2331, 2332 and the water outlet portion 2333 may be respectively disposed at different sides of the base body 233, for example, the first and second water inlet portions 2331 and 2332 may be respectively disposed at opposite first and second sides of the base body 233 so that the first and second water inlet portions 2331 and 2332 are respectively communicated with different water sources, the water outlet portion 2333 is disposed at a third side, and the third side may be connected between the first and second sides.

The first inlet 2331 can be used for the inflow of cold water and the second inlet 2332 can be used for the inflow of hot water. Where "hot water" refers to a source of water at a higher temperature than cold water. In addition, the first water inlet 2331 may be used for inflow of hot water, and the second water inlet 2332 may be used for inflow of cold water.

When the first water inlet 2331 is connected to an external cold water source and the second water inlet 2332 is connected to an external hot water source, cold water introduced from the first water inlet 2331 and hot water introduced from the second water inlet 2332 may be introduced into the first water outlet 210 to be mixed, cold water introduced from the first water inlet 2331 and hot water introduced from the second water inlet 2332 may be introduced into the second water outlet 220 to be mixed, and cold/hot water mixed by the first water outlet 210 and the second water outlet 220 may be introduced into the water outlet 2333 at the same time to be discharged from the water outlet 2333 at a large flow rate, thereby effectively increasing the discharge flow rate of the water outlet 2333.

The sum of the number of the first water outlet means 210 and the number of the second water outlet means 220 is two or more. The following description will be given with the number of the first water discharge mechanism 210 and the second water discharge mechanism 220 being one for each:

referring to fig. 1 and 2, in the present embodiment, the base body 233 is provided with a first water inlet channel 2334, a second water inlet channel 2335 and a water outlet channel 2336, the first water inlet channel 2334 is communicated with the first water inlet portion 2331, the second water inlet channel 2335 is communicated with the second water inlet portion 2332, and the water outlet channel 2336 is communicated with the water outlet portion 2333.

In some embodiments, the base body 233 includes a housing 2343, a first partition 2341, and a second partition 2342, and the housing 2343 has a substantially T-shaped plate-like structure. The housing 2343 encloses a chamber 2337, and the first partition 2341 and the second partition 2342 are disposed in the chamber 2337 and jointly partition the chamber 2337 into a first water inlet channel 2334, a second water inlet channel 2335 and a water outlet channel 2336. At least one of the first and second partitions 2341 and 2342 may be arranged in a straight line, which may simplify the waterway structure of the channels.

Illustratively, the first partition 2341 may be connected between two opposite inner sidewalls of the casing 2343 and be disposed substantially in a water inlet direction parallel to the first water inlet portion 2331 or the second water inlet portion 2332, and the first partition 2341 divides the cavity of the casing 2343 into a first cavity serving as the water outlet channel 2336 and a second cavity. The second partition 2342 is disposed in the second cavity, one end of the second partition 2342 may be connected to the first partition 2341, and the other end of the second partition may be connected to a side wall of the casing 2343, so as to partition the second cavity into a first water inlet channel 2334 and a second water inlet channel 2335, and the second partition 2342 may have a straight plate-shaped structure or may be bent at least once.

By directly arranging the first partition 2341 and the second partition 2342 in the casing 2343, the first water inlet channel 2334, the second water inlet channel 2335 and the water outlet channel 2336 are directly formed in the cavity 2337 in a separated manner, the waterway design of the first water inlet channel 2334 and the second water inlet channel 2335 is greatly simplified, the processing and the forming are convenient, and the first water inlet channel 2334, the second water inlet channel 2335 and the water outlet channel 2336 with large spaces can be directly formed in the casing 2343, so that the requirement of the water outlet part 2333 for large flow of water is met.

In addition, in other embodiments, the casing 2343 may also have a rectangular, oval or other shape of the casing 2343, which may be adjusted according to actual needs.

Referring to fig. 3 and 4, in the present embodiment, the first mounting body 231 and the second mounting body 232 may have substantially the same structure. Specifically, the first mounting body 231 is provided with a first mounting portion 2311, a first water inlet channel 2312, a second water inlet channel 2313 and a first water outlet channel 2314, the first water inlet channel 2312 is communicated with the first water inlet portion 2331, the second water inlet channel 2313 is communicated with the second water inlet portion 2332, the first water outlet channel 2314 is communicated with the water outlet portion 2333, the first mounting portion 2311 is used for mounting the first water outlet mechanism 210, and the first mounting portion 2311 can be of a cavity structure with an opening.

Accordingly, in this embodiment, the second mounting body 232 is provided with a second mounting portion 2321, a third water inlet channel 2322, a fourth water inlet channel 2323 and a second water outlet channel 2324, the third water inlet channel 2322 is communicated with the first water inlet portion 2331, the fourth water inlet channel 2323 is communicated with the second water inlet portion 2332, the second water outlet channel 2324 is communicated with the water outlet portion 2333, the second mounting portion 2321 is used for mounting the second water outlet mechanism 220, and the second mounting portion 2321 may be a cavity structure with an opening.

In this embodiment, the first mounting body 231 includes a first main pipe body 2315, a first water inlet pipe body 2316, a second water inlet pipe body 2317 and a first water outlet pipe body 2318. The first and second water inlet pipes 2316 and 2317 are connected to opposite sides of the first main pipe 2315, and the first water outlet pipe 2318 may be disposed substantially along a radial direction of the first main pipe 2315. The first mounting portion 2311 is disposed on the first main pipe body 2315, the first water inlet passage 2312 is disposed on the first water inlet pipe body 2316, the second water inlet passage 2313 is disposed on the second water inlet pipe body 2317, and the first water outlet passage 2314 is disposed on the first water outlet pipe body 2318.

Illustratively, the first main pipe body 2315, the first water inlet pipe body 2316 and the second water inlet pipe body 2317 are all generally straight pipe-shaped structures. The first main pipe body 2315, the first water inlet pipe body 2316 and the second water inlet pipe body 2317 may be arranged side by side, and both the first water inlet pipe body 2316 and the second water inlet pipe body 2317 may be arranged substantially in an axial direction parallel to the first main pipe body 2315. The design of the waterway structure inside the whole first mounting main body 231 can be simplified, the waterway path is shortened, and the three pipes are arranged side by side and a channel with a larger sectional area is directly formed in the corresponding pipe.

In this embodiment, the second mounting main body 232 includes a second main pipe 2325, a third water inlet pipe 2326, a fourth water inlet pipe 2327 and a second water outlet pipe 2328, the third water inlet pipe 2326 and the fourth water inlet pipe 2327 are connected to two opposite sides of the second main pipe 2325, the second water outlet pipe 2328 may be substantially disposed along a radial direction of the second main pipe 2325, the second mounting portion 2321 is disposed on the second main pipe 2325, the third water inlet passage 2322 is disposed on the third water inlet pipe 2326, the fourth water inlet passage 2323 is disposed on the fourth water inlet pipe 2327, and the second water outlet passage 2324 is disposed on the second water outlet pipe 2328.

For example, the second main pipe 2325, the third water inlet pipe 2326 and the fourth water inlet pipe 2327 are all substantially straight pipes, and the second main pipe 2325, the third water inlet pipe 2326 and the fourth water inlet pipe 2327 may be arranged side by side. The third inlet pipe 2326 and the fourth inlet pipe 2327 may be disposed substantially along an axial direction parallel to the second main pipe 2325. The inside waterway structure of whole second installation main part 232 can be simplified like this, the route in water route is shortened, sets up side by side through three body moreover to direct form the passageway of great sectional area in the body that corresponds.

In the present embodiment, the first water inlet channel 2334 connects the first water inlet 2331 to the first water inlet channel 2312 and the third water inlet channel 2322, the second water inlet channel 2335 connects the fourth water inlet channel 2323 to the second water inlet channel 2313 and the third water inlet channel 2322, and the water outlet channel 2336 connects the first water outlet channel 2314 and the second water outlet channel 2324 to the water outlet 2333.

In some embodiments, the first mounting body 231, the second mounting body 232, and the housing 2343 may be an integrally formed structure or a detachable structure. Illustratively, the first mounting body 231, the second mounting body 232 and the casing 2343 are detachable structures, and the three may be connected together in an assembling manner, for example, the three may be connected by welding, screwing, or snapping, so as to facilitate processing different fittings respectively.

In some embodiments, as shown in fig. 2 and 4, the housing 2343 is provided with a first water outlet 2351, a second water outlet 2352, a third water outlet 2353 and a fourth water outlet 2354, the first water outlet 2351 communicates the first water inlet portion 2331 with the first mounting portion 2311, the second water outlet 2352 communicates the second water inlet portion 2332 with the first mounting portion 2311, the third water outlet 2353 communicates the first water inlet portion 2331 with the second mounting portion 2321, and the fourth water outlet 2354 communicates the second water inlet portion 2332 with the second mounting portion 2321. Specifically, the first water outlet 2351, the second water outlet 2352, the third water outlet 2353 and the fourth water outlet 2354 may be sequentially arranged side by side, the first water outlet 2351 is communicated with the first water inlet passage 2312, the second water outlet 2352 is communicated with the second water inlet passage 2313, the third water outlet 2353 is communicated with the third water inlet passage 2322, and the fourth water outlet 2354 is communicated with the fourth water inlet passage 2323. The first water inlet channel 2334 communicates the first water inlet portion 2331 with the first water outlet 2351 and the third water outlet 2353, and the second water inlet channel 2335 communicates the second water inlet portion 2332 with the second water outlet 2352 and the fourth water outlet 2354. Accordingly, the water source flowing from the first water inlet 2331 may flow to the first outlet 2351 and the third outlet 2353 via the first water inlet channel 2334; the water flowing in from the second water inlet 2332 may flow to the second water outlet 2352 and the fourth water outlet 2354 via the second water inlet channel 2335. Thus, the first and second water outlet mechanisms 210 and 220 are simultaneously communicated with the first water inlet portion 2331, and the first and second water outlet mechanisms 210 and 220 are simultaneously communicated with the second water inlet portion 2332, so that water is simultaneously mixed by the first and second water outlet mechanisms 210 and 220 to realize a large flow of water.

In some embodiments, as shown in fig. 2 and 5, when the first mounting main body 231, the second mounting main body 232 and the base body 233 are detachable, the water outlet base 230 is provided with a first joint 2361 and a second joint 2362 for being inserted into the first mounting main body 231, a third joint 2363 and a fourth joint 2364 for being inserted into the second mounting main body 232, the first joint 2361 is fixedly disposed at the first water outlet 2351 and communicated with the first water outlet 2351, and the second joint 2362 is fixedly disposed at the second water outlet 2352 and communicated with the second water outlet 2352. Correspondingly, the third connector 2363 is fixedly disposed on the third outlet 2353 and is in communication with the third outlet 2353, and the fourth connector 2364 is mounted on the fourth outlet 2354 and is in communication with the fourth outlet 2354.

When the first mounting body 231 is mounted to the housing 2343, the first joint 2361 may be inserted into the first water inlet pipe body 2316 to communicate with the first water inlet passage 2312, and the second joint 2362 may be inserted into the second water inlet pipe body 2317 to communicate with the second water inlet passage 2313. Accordingly, when the second mounting body 232 is mounted to the case 2343, the third joint 2363 may be inserted into the third water inlet pipe body 2326 to communicate with the third water inlet passage 2322, and the fourth joint 2364 may be inserted into the fourth water inlet pipe body 2327 to communicate with the fourth water inlet passage 2323. The first joint 2361, the second joint 2362, the third joint 2363 and the fourth joint 2364 can not only perform a communicating function, but also perform a pre-fixing function, so that the first mounting main body 231 and the second mounting main body 232 are pre-fixed at a position corresponding to the casing 2343, and an installer can further fix the first mounting main body 231 and the second mounting main body 232 through fasteners.

In some embodiments, the housing 2343 is provided with a first communication hole 2372 communicated with the water outlet channel 2336, the housing 2343 is provided with a second communication hole 2373 communicated with the water outlet channel 2336, the first water outlet pipe body 2318 is communicated with the water outlet channel 2336 through the first communication hole 2372, and the second water outlet pipe body 2328 is communicated with the water outlet channel 2336 through the second communication hole 2373. Illustratively, the first mounting body 231 may include a first socket portion 2365, and the first socket portion 2365 may be fixed to the first outlet pipe body 2318 and communicate with the first outlet passage 2314. The second mounting body 232 may include a second plug portion 2366, and the second plug portion 2366 may be fixed to the second outlet pipe 2328 and communicated with the second outlet passage 2324. When the first mounting main body 231 is mounted to the casing 2343, the first inserting portion 2365 is inserted into the first communication hole 2372, and when the second mounting main body 232 is mounted to the casing 2343, the second inserting portion 2366 is inserted into the second communication hole 2373. The first plug portion 2365 and the second plug portion 2366 may play a role of not only communication but also pre-fixing.

Referring to fig. 5, in the present embodiment, the first water outlet mechanism 210 is mounted on the first mounting body 231, and the first water inlet portion 2331 and the second water inlet portion 2332 are communicated with the water outlet portion 2333 through the first mounting body 231. The second outlet mechanism 220 is attached to the second attachment body 232, and the first inlet 2331 and the second inlet 2332 are simultaneously connected to the outlet 2333 by the second attachment body 232.

In this embodiment, the first water outlet mechanism 210 and the second water outlet mechanism 220 may be a water mixing valve core or a switch valve core, for example, both of which are knob type thermostatic valve cores, wherein the rotary thermostatic valve core includes a movable valve plate and a fixed valve plate, and its specific working principle is: the movable valve plate can rotate relative to the fixed valve plate, a first water distribution hole and a second water distribution hole are formed in the movable valve plate, a first water inlet hole and a second water inlet hole are formed in the fixed valve plate, cold water can enter the first water inlet hole, hot water can enter the second water inlet hole, the first water distribution hole is communicated with the first water inlet hole, and the second water distribution hole is communicated with the second water inlet hole. When the movable valve plate rotates along the first direction, the communication area of the first water dividing hole and the first water inlet hole is increased, the communication area of the second water dividing hole and the second water inlet hole is reduced, and the ratio of cold water/hot water is increased; correspondingly, when the movable valve plate rotates along the second direction, the communication area of the first water dividing hole and the first water inlet hole is reduced, the communication area of the second water dividing hole and the second water inlet hole is increased, and the ratio of cold water/hot water is reduced. Therefore, the mixing proportion of hot water and cold water can be adjusted by controlling the movable valve plate to rotate along different directions, so that the adjustment of the water temperature is realized.

In addition, in some embodiments, the movable valve plate may be rotatable to a water-off position in the first direction or the second direction, and when the movable valve plate is rotatable to the water-off position, the communication between the first water distribution hole and the first water inlet hole is blocked, and the communication between the second water distribution hole and the second water inlet hole is blocked.

It should be noted that the knob-type thermostatic valve cartridge has a function of mixing water to adjust the water temperature and/or a function of opening and closing, for example, the first outlet mechanism 210 and the second outlet mechanism 220 may have a function of adjusting the water temperature and opening and closing at the same time, and the first outlet mechanism 210 may selectively connect the first water inlet portion 2331 and the second water inlet portion 2332 to the water outlet portion 2333, or may selectively block the first water inlet portion 2331 and the second water inlet portion 2332 from the water outlet portion 2333.

In some embodiments, as shown in fig. 6, the first water outlet mechanism 210 and the second water outlet mechanism 220 are both knob type thermostatic valve cores, the water outlet assembly 200 further includes a driving assembly 260, the driving assembly 260 is in driving fit with the rotating rods of the first water outlet mechanism 210 and the second water outlet mechanism 220, and the driving assembly 260 is configured to drive the rotating rods of the first water outlet mechanism 210 and the second water outlet mechanism 220 to rotate simultaneously. Thus, the driving assembly 260 can synchronously adjust the mixing ratio of the cold/hot water of the first water outlet mechanism 210 and the second water outlet mechanism 220 to jointly adjust the water flow temperature of the water outlet portion 2333, and the driving assembly 260 can synchronously turn on or off the first water outlet mechanism 210 and the second water outlet mechanism 220. The driving assembly 260 may drive the rotating rods of the first water outlet mechanism 210 and the second water outlet mechanism 220 to rotate simultaneously under the action of an external force or its own driving force.

In some embodiments, as shown in fig. 6, the driving assembly 260 includes a first gear 261, a second gear 262, and a driving gear 263, the first gear 261 is connected to the rotating rod of the first water outlet mechanism 210 in a transmission manner, the second gear 262 is connected to the rotating rod of the second water outlet mechanism 220 in a transmission manner and is spaced apart from the first gear 261, and the driving gear 263 is engaged with the first gear 261 and the second gear 262. For example, the first gear 261 may be fixed to a top end surface of a rotating rod of the first water outlet mechanism 210 by a fastener, or may be fixed to an outer circumference of the rotating rod, and the first gear 261 is fixedly connected to the rotating rod of the first water outlet mechanism 210. The second gear 262 may be fixed to a top end surface of the rotating rod of the second water outlet mechanism 220 by a fastener, or may be fixed to an outer circumference of the rotating rod, and the second gear 262 is fixedly connected to the rotating rod of the second water outlet mechanism 220. The driving gear 263 is located between the first gear 261 and the second gear 262, and is engaged with the first gear 261 and the second gear 262.

When the driving gear 263 rotates in a first direction, the driving gear 263 can drive the first gear 261 and the second gear 262 to rotate in a second direction, the cold/hot water ratio of the first water outlet mechanism 210 and the second water outlet mechanism 220 is increased, so as to reduce the water flow temperature of the water outlet portion 2333, and in addition, the driving gear 263 can drive the first water outlet mechanism 210 and the second water outlet mechanism 220 to close water in the first direction, wherein the first direction can be clockwise or counterclockwise. Conversely, when the driving gear 263 rotates in the second direction, the driving gear 263 can drive the first gear 261 and the second gear 262 to rotate in the first direction, the cold/hot water ratio of the first water outlet mechanism 210 and the second water outlet mechanism 220 is decreased, so as to increase the water flow temperature of the water outlet portion 2333, and the driving gear 263 can drive the first water outlet mechanism 210 and the second water outlet mechanism 220 to boil water in the second direction. Therefore, the user can synchronously adjust the cold/hot water ratio of the first water outlet mechanism 210 and the second water outlet mechanism 220 by rotating the driving gear 263 in different directions, thereby achieving a rapid adjustment of the water temperature without adjusting one by one, and can synchronously turn off or boil the water in the first water outlet mechanism 210 and the second water outlet mechanism 220 by rotating the driving gear 263 in different directions.

In some embodiments, the driving assembly 260 may further include a rotation part 265 for mounting the driving gear 263, the rotation part 265 having a rotation shaft, and the driving gear 263 may be fixed on an outer circumference or a top end surface of the rotation shaft and may rotate together with the rotation shaft. The outlet base 230 may include a fixing portion 238, the fixing portion 238 may be a fixing pipe, the fixing portion 238 may be installed between the first and second installation bodies 231 and 232, and the rotating portion 265 may be assembled on the fixing portion 238. The drive assembly 260 may further include a hand wheel 266, the hand wheel 266 being connected to the drive gear 263, and the user may drive the hand wheel 266 to rotate by driving the hand wheel 266, thereby adjusting the water temperature.

In other embodiments, the rotating portion 265 may be a driving motor, the driving gear 263 is connected to a rotating shaft of the driving motor, and the driving motor may drive the driving gear 263 to rotate in different directions, so as to achieve automatic adjustment of the water temperature.

In other embodiments, the driving assembly 260 may include a driving link, a first driving rod and a second driving rod, wherein the first driving rod is connected to the rotating shaft of the first water discharging mechanism 210, the second driving rod is connected to the rotating shaft of the second water discharging mechanism 220, the driving link is rotatably connected to the first driving rod and the second driving rod, and the driving link, the first driving rod and the second driving rod may be used as a crank mechanism. When the driving connecting rod is under the action of the driving force, the first driving rod and the second driving rod can be driven to rotate, so that the rotating shaft of the first water outlet mechanism 210 and the rotating shaft of the second water outlet mechanism 220 are driven to rotate, and the water temperature can be quickly adjusted.

In some embodiments, as shown in fig. 6, the water outlet assembly 200 further includes a housing 230, the housing 230 is provided with a mounting cavity, the water outlet base 230 is mounted in the mounting cavity, and the driving assembly 260 is exposed from the mounting cavity of the hand wheel 266 for convenient operation by a user. The outer circumference of the housing 230 is provided with a through hole for exposing or extending the water inlet portion and the water outlet portion of the water outlet assembly 200.

Referring to fig. 7, an embodiment of the present invention further provides a water outlet device 400, including the water outlet assembly 200 and the water outlet member 410, and the following description takes the water outlet device 400 as a shower device as an example:

in this embodiment, the water outlet 410 is in communication with the water outlet portion 2333 of the water outlet assembly 200, and the water outlet 410 can be a hand-held shower, a fixed top shower, or a faucet. Through with water outlet member and water outlet assembly 200 intercommunication, because water outlet assembly 200 has large-traffic, consequently makes to obtain the water outlet member and can have great water flow to satisfy user's daily demand.

In some embodiments, the outlet device 400 may further include a first valve switch (not shown) in communication with the first inlet 2331 for selectively connecting or disconnecting the first inlet 2331 to an external water source, and a second valve switch (not shown) in communication with the second inlet 2332 for selectively connecting or disconnecting the second inlet 2332 to an external water source.

The embodiment of the utility model provides a water outlet device, through setting up foretell water outlet assembly 200, first water outlet mechanism in water outlet assembly 200 is with first portion 2331 that intakes, second portion 2332 that intakes simultaneously with water outlet assembly 2333 switch-on, second water outlet mechanism 220 is with first portion 2331 that intakes, second portion 2332 that intakes simultaneously with water outlet assembly 2333 switch-on, therefore, the rivers that flow in from first portion 2331 that intakes can flow into first water outlet mechanism 210 through outlet base 230, the rivers that flow in from second portion 2332 that intake can pass through outlet base 230 second water outlet mechanism 220, first water outlet mechanism 210 and second water outlet mechanism 220 can supply water to water outlet assembly 2333 altogether, thereby improve at least one time with water outlet assembly 2333's water yield, the large-traffic play water of the piece of having realized, user's daily user demand has been satisfied.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. A water outlet assembly, comprising:

the water outlet base is provided with a first water inlet part, a second water inlet part and a water outlet part, and the first water inlet part and the second water inlet part are communicated with the water outlet part;

the first water outlet mechanism and the second water outlet mechanism are arranged on the water outlet base, and the first water inlet part and the second water inlet part are communicated with the water outlet part simultaneously by the first water outlet mechanism;

when the first water outlet mechanism connects the first water inlet part, the second water inlet part and the water outlet part, the second water outlet mechanism connects the first water inlet part and the second water inlet part and the water outlet part simultaneously.

2. The water outlet assembly of claim 1, wherein the first water outlet mechanism and the second water outlet mechanism are water mixing valve cores or switch valve cores.

3. The water outlet assembly according to claim 1, further comprising a driving assembly, wherein the first water outlet mechanism and the second water outlet mechanism are both knob type thermostatic valve cores, the driving assembly is in transmission fit with the rotating rods of the first water outlet mechanism and the second water outlet mechanism, and the driving assembly is configured to drive the rotating rods of the first water outlet mechanism and the second water outlet mechanism to rotate simultaneously.

4. The water outlet assembly of claim 3, wherein the driving assembly comprises a first gear, a second gear and a driving gear, the first gear is connected to the rotating rod of the first water outlet mechanism in a transmission manner, the second gear is connected to the rotating rod of the second water outlet mechanism in a transmission manner and is spaced from the first gear, and the driving gear is meshed with the first gear and the second gear.

5. The water outlet assembly according to claim 1, wherein the water outlet base includes a base body, and a first mounting body and a second mounting body disposed on the water outlet base body, the first water inlet portion, the second water inlet portion and the water outlet portion are disposed on the base body, the first water outlet mechanism is mounted on the first mounting body and communicates the first water inlet portion and the second water inlet portion with the water outlet portion through the first mounting body, and the second water outlet mechanism is mounted on the second mounting body and communicates the first water inlet portion and the second water inlet portion with the water outlet portion through the second mounting body.

6. The water outlet assembly according to claim 5, wherein the first mounting body is provided with a first water outlet mechanism mounting portion, a first water inlet channel, a second water inlet channel and a first water outlet channel, the first water inlet channel is communicated with the first water inlet portion, the second water inlet channel is communicated with the second water inlet portion, the first water outlet channel is communicated with the water outlet portion, and the first water outlet mechanism is mounted in the first water outlet mechanism mounting portion;

the second installation main part is equipped with second water outlet mechanism installation department, third inlet channel, fourth inlet channel and second outlet channel, the third inlet channel intercommunication first portion of intaking, the fourth inlet channel intercommunication the second portion of intaking, the second outlet channel intercommunication go out water portion, the second outlet mechanism install in the second water outlet mechanism installation department.

7. The water outlet assembly of claim 6, wherein the first mounting main body comprises a first main pipe, a first water inlet pipe, a second water inlet pipe, and a first water outlet pipe, the first water inlet pipe and the second water inlet pipe are connected to opposite sides of the first main pipe, the first water outlet pipe is arranged along a radial direction of the first main pipe, the first water outlet mechanism mounting portion is arranged on the first main pipe, the first water inlet channel is arranged on the first water inlet pipe, the second water inlet channel is arranged on the second water inlet pipe, and the first water outlet channel is arranged on the first water outlet pipe.

8. The water outlet assembly according to claim 6, wherein the second mounting body includes a second main pipe, a third water inlet pipe, a fourth water inlet pipe, and a second water outlet pipe, the third water inlet pipe and the fourth water inlet pipe are connected to opposite sides of the second main pipe, the second water outlet pipe is disposed along a radial direction of the second main pipe, the second water outlet mechanism mounting portion is disposed on the second main pipe, the third water inlet passage is disposed on the third water inlet pipe, the fourth water inlet passage is disposed on the fourth water inlet pipe, and the second water outlet passage is disposed on the second water outlet pipe.

9. The water outlet assembly according to claim 6, wherein the base body is provided with a first water inlet channel, a second water inlet channel and a water outlet channel, the first water inlet channel connects the first water inlet portion with the first water inlet channel and the third water inlet channel, the second water inlet channel connects the second water inlet portion with the second water inlet channel and the third water inlet channel, and the water outlet channel connects the first water outlet channel and the second water outlet channel with the water outlet portion.

10. The water outlet assembly of claim 9, wherein the base body comprises a housing, a first partition, and a second partition, the housing enclosing a cavity, the first partition and the second partition disposed within the cavity and collectively dividing the cavity into the first water inlet channel, the second water inlet channel, and the water outlet channel.

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