CN218177997U - Water outlet faucet - Google Patents

Abstract

The utility model discloses a water outlet faucet, which comprises a movable component and a static component, wherein the movable component is fixedly connected with a rotating part, the static component is fixedly connected with a fixed part, an annular flow passage is formed between the movable component and the static component, and the annular flow passage is communicated with a water inlet pipe and a water outlet pipe; the movable component is rotationally connected with the static component, and when the movable component rotates to any position by taking the static component as an axis, the annular flow channel is always communicated with the water inlet pipe and the water outlet pipe; and water in the water inlet pipe flows to the water outlet pipe through the annular flow channel and then flows out from the water outlet of the water outlet faucet. The utility model discloses a move and can realize 360 rotations between subassembly and the quiet subassembly, advance water piping connection in quiet subassembly, go out water piping connection in moving the subassembly, when going out 360 rotations of tap, only move the subassembly and rotate, quiet subassembly is motionless, and the inlet tube can not take place to twist reverse or twine because the tap rotates, goes out 360 rotations of tap and can provide bigger water receiving area for the user.

Description

Water outlet faucet

Technical Field

The utility model belongs to the technical field of faucet equipment, concretely relates to go out tap.

Background

The water purifier on the market at present generally comprises a main machine body positioned under a kitchen and a water outlet faucet positioned on a table top, wherein the main machine body is generally communicated with the faucet through a silica gel hose or a hard PE pipe, the hard PE pipe is taken as an example, one end of the PE pipe is connected to a water outlet of the main machine body, the other end of the PE pipe penetrates into the faucet and is directly connected to a water outlet nozzle of the faucet, when a user needs to rotate the faucet to take water, the PE pipe can be driven to rotate together, the two ends of the PE pipe are fixed, so that the PE pipe can be twisted, if the number of the PE pipes is two or more, the PE pipe can be wound, when the faucet rotates excessively, the PE pipe is excessively bent to cause that the two ends of the PE pipe are separated from the main machine body and/or the water outlet nozzle, so that the existing faucet defines a rotation angle which is mostly 180 degrees, the faucet rotation angle of the specification is limited, the user needs to take water to an area within the rotation angle range of the faucet, inconvenience is brought under certain conditions, and when the PE pipes are multiple PE pipes, the arrangement form of the PE pipes in the faucet can also influence the volume of the faucet, so that the PE pipes are reasonably arranged;

the existing faucet is complex in installation process, a fastener located below a table top needs to be rotated to fix the faucet, the lower side of the table top is limited by the shape and space of the table top, an installer often needs to hold the faucet on the table top with one hand to limit the position in the process of installing the faucet on the table top, the other hand extends to the lower side of the table top to be screwed with a nut and other fixing structures, the process needs to be stooped down for operation, the operation is quite inconvenient, and in the process of stooping down, the installer does not easily exert force to cause the faucet to be fixed and to shake, if the table top is too wide, two mounting points cannot be touched by two hands of the installer at the same time, the installer cannot complete installation by one person, or two installers are needed, one faucet is fixed above the table top, and one fastener is drilled below the table top to rotate to realize installation;

at present net hot all-in-one is hot door, the tap of the net hot all-in-one of adaptation often need to realize hot water, hot water flow can be little a lot less than in the flow of cold water, consequently same tap need realize two different flows play water, how to keep the water type that different flows go out water pleasing to the eye problem that also need solve of current tap, and be mingled with a lot of bubbles in the hot water, when the hot water that is mingled with the bubble flows from the faucet of tap, the bubble breaks and just can lead to hot water to splash, scald the user easily.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water outlet faucet, which solves at least one of the technical problems.

The utility model discloses the technical scheme who adopts does:

a faucet, comprising:

the shell comprises a fixed part extending along a first axis and a rotating part extending along a second axis, and the fixed part is rotatably connected with the rotating part;

the adapter comprises a movable component and a static component, the movable component is fixedly connected with the rotating part, the static component is fixedly connected with the fixed part, the movable component is connected with a water outlet pipe, the static component is connected with a water inlet pipe, an annular flow passage is formed between the movable component and the static component, and the annular flow passage is communicated with the water inlet pipe and the water outlet pipe;

the movable component is rotatably connected with the static component, and when the movable component rotates to any position relative to the static component, the annular flow channel is always communicated with the water inlet pipe and the water outlet pipe; and water in the water inlet pipe flows to the water outlet pipe through the annular flow channel and then flows out of the water outlet faucet.

The water purifier main frame is connected to the one end of inlet tube, and quiet subassembly is connected to the other end, moves the subassembly and rotates with quiet subassembly and be connected, moves subassembly and rotation portion fixed connection, rotates the tap and rotates rotation portion promptly, and rotation portion rotates the drive it uses quiet subassembly to rotate as the axle to move the subassembly, and quiet subassembly rotates with the fixed part to be connected, and quiet subassembly can not take place to rotate all the time, and consequently the inlet tube of connecting on quiet subassembly can not twist reverse or twine, moves the annular runner that forms between subassembly and the quiet subassembly and can communicate inlet tube and outlet pipe all the time, guarantees that rotation portion still can normally supply water when rotating 360 rotations around the fixed part, through quiet subassembly with move the rotation between the subassembly and quiet subassembly and the water route formation and the intercommunication between the subassembly, realized 360 rotations of tap, solved tap and rotated and lead to the water pipe to twist and the winding problem of water pipe, more enlarged the water supply region of tap, no matter the user is located tap position, all can realize the water receiving.

Preferably, the adaptor is arranged at the joint of the rotating part and the fixing part, the water inlet pipe is connected to the static component along the direction of the first axis, the water outlet pipe is connected to the dynamic component along the direction of the second axis, the water flow direction is changed from the first axis direction to the circumferential direction, and then is changed from the circumferential direction to the second axis direction. The rivers direction in the inlet tube is first axis direction, the rivers direction in the outlet tube is second axis direction, rivers direction in the adaptor is circumference, compare in the inside mode that realizes going out water of traditional a water pipe running through tap, the outlet tap of this application can realize many times the water route and turn to, effectively slow down the velocity of flow and realize the stationary flow, when water in the water pipe is hot water, many times the water route turns to can also make the better quilt striking of bubble in the hot water with break, hot water play water effect has been improved.

Preferably, the movable component and the static component are distributed inside and outside, the movable component is located on the outer side of the static component, the annular flow channel is formed between the inner side wall of the movable component and the outer side wall of the static component, or the movable component is located on the inner side of the static component, and the annular flow channel is formed between the outer side wall of the movable component and the inner side wall of the static component.

Preferably, the static component comprises a first waterway conversion piece, a water inlet channel is arranged at the bottom of the first waterway conversion piece, an annular groove is formed in the side wall of the first waterway conversion piece, the moving component comprises a second waterway conversion piece, a water outlet channel is formed in the side wall of the second waterway conversion piece, the second waterway conversion piece is sleeved on the outer side of the first waterway conversion piece, the annular groove of the first waterway conversion ring piece and the inner side wall of the second waterway conversion piece form the annular channel, and the annular channel is communicated with the water inlet channel and the water outlet channel.

Preferably, the annular grooves are distributed on the first waterway conversion member in a hierarchical manner along the first axial direction, a plurality of annular runners are formed in the adapter member, a sealing ring for sealing is arranged between every two adjacent annular runners, the first waterway conversion member is provided with a plurality of water inlet runners, the second waterway conversion member is provided with a plurality of water outlet runners, and the water inlet runners and the water outlet runners are respectively in one-to-one correspondence with the annular runners. Go out tap's fixed part and extend along first axial direction, a plurality of annular flow channels in the adaptor are first axial direction level distribution along the extending direction of fixed part promptly, the inner space of fixed part has effectively been utilized, thereby the diameter of going out tap has been reduced to the radial size of adaptor, inlet flow channel and an outlet flow channel of a plurality of annular flow channel one-to-ones, show the runner mutual independence of this application, can realize polytype independent play water, for example normal atmospheric temperature water, cold water, hot water, function water etc, avoid the muddy water between the multiple different grade type water.

Preferably, the stationary assembly further comprises an upper limiting member and a lower limiting member fixedly connected to two ends of the first waterway conversion member, the lower limiting member is fixedly connected to the inside of the fixing portion, the second waterway conversion member is fixedly connected to the rotating portion, a sliding groove is formed among the upper limiting member, the lower limiting member and the first waterway conversion member, and the second waterway conversion member is rotatably connected to the inside of the sliding groove. First water route converting element is through lower spacing piece and fixed part fixed connection, upper and lower spacing piece fixed connection is at the both ends of first water route converting element, consequently first water route converting element, it is all fixed motionless with lower spacing piece to go up the spacing piece, the lateral surface of first water route converting element, go up and have enclosed a spout between the lower terminal surface of spacing piece and the up end of lower spacing piece, second water route converting element rotates and connects in the spout, the spout has played the effect of indirect fixed second water route converting element, again because of second water route converting element fixed connection is in the rotation portion, consequently second water route converting element has also played the effect that indirect fixed spout is quiet subassembly promptly, quiet subassembly and move between the subassembly mutual positioning fixed.

Preferably, the lower limiting piece is in a shape of a sinking platform, the lower limiting piece is sequentially provided with a water inlet pipe penetrating area, a fixing area for limiting the first waterway conversion piece and a sliding area for limiting the second waterway conversion piece from inside to outside, the edge of the penetrating area is provided with a positioning notch, and the bottom of the first waterway conversion piece is provided with a positioning pin matched with the positioning notch. The locating pin of first water route crossover sub bottom and the location breach on the spacing piece down have played the effect of spacing piece and first water route crossover sub position relation under the restriction, can enough be convenient for first water route crossover sub and the assembly of spacing piece down target in place, can play the effect that prevents first water route crossover sub pivoted again.

Preferably, a ball bearing platform is arranged in the sliding area, the ball bearing platforms are distributed in the sliding area along the circumferential direction, balls are placed on the ball bearing platforms, a groove for accommodating the balls is formed in the end portion of the second waterway conversion piece, and the second waterway conversion piece is rotatably connected with the lower limiting piece through the balls. The ball is used for reducing the friction force between the second waterway conversion piece and the lower limiting piece when the second waterway conversion piece rotates.

Preferably, the water-vapor separation device further comprises a water-vapor separation box, the water-vapor separation box is fixedly connected to the rotating part, a water inlet end of the water-vapor separation box is connected with a water outlet end of the water outlet pipe, and a water outlet end of the water-vapor separation box forms a water outlet of the water outlet faucet.

Preferably, the portable electronic device further comprises a touch assembly, the touch assembly comprises a touch screen and an electric control board, the touch assembly is installed at the top end of the rotating portion, and the static assembly is provided with a threading hole penetrating through an electric power line of the electric control board.

Since the technical scheme is used, the utility model discloses the technological effect who gains does:

the utility model provides a go out tap move subassembly and quiet subassembly between can realize 360 rotations, advance water piping connection in quiet subassembly, go out water piping connection in moving the subassembly, when going out tap 360 rotations, only move the subassembly and rotate, quiet subassembly is motionless, the inlet tube can not twist reverse or twine because of tap rotation takes place, go out tap 360 rotations can provide bigger water receiving region for the user.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

fig. 1 is an exploded schematic view of the present invention;

fig. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the movable and stationary components of the present invention;

FIG. 4 is a schematic cross-sectional view of FIG. 3;

fig. 5 is a schematic cross-sectional view of a first waterway conversion member according to the present invention;

fig. 6 is a schematic structural view of the lower stopper of the present invention;

fig. 7 is a schematic structural view of the box body of the water-steam separation box of the present invention;

fig. 8 is a schematic structural view of the cover of the water-steam separating box of the present invention;

FIG. 9 is a schematic sectional view of the water-vapor separation cartridge of the present invention;

fig. 10 is a schematic structural view of the lower fixing member of the present invention;

fig. 11 is a schematic cross-sectional view of the fixing assembly of the present invention;

fig. 12 is a schematic structural view of a third waterway conversion member according to the present invention;

fig. 13 is another schematic structural diagram of the third waterway conversion member of the present invention.

Reference numerals:

1. a fixed part; 2. a rotating part; 3. an adaptor; 31. a second waterway conversion member; 311. a water outlet flow passage; 312. fixing the ribs; 32. a first waterway conversion member; 321. a lower retainer; 3211. a sliding region; 3212. a fixed zone; 3213. the water inlet pipe penetrates through the area; 3214. a ball bearing table; 3215. a first fixed column; 3216. a second fixed column; 3217. a fixing hole; 322. an upper limiting member; 323. threading holes; 324. an annular flow passage; 325. a ball bearing; 326. a seal ring; 327. a water inlet flow channel; 328. a thermal insulation region; 33. a third waterway conversion member; 331. a hot water through pipe; 332. passing through the trachea; 333. an abutting portion; 334. fixing the lug; 41. a water inlet pipe; 42. an air inlet pipe; 43. a pipe fixing member; 51. a water outlet pipe; 52. an exhaust pipe; 6. a water-vapor separation box; 61. a box body; 611. arc-shaped flow guide ribs; 612. an arc-shaped shunting rib; 613. separating ribs; 614. a first water passing area; 615. a second water passing area; 616. a third water passing area; 617. an exhaust passage; 618. a water outlet nozzle; 619. water-collecting flow-guiding ribs; 62. a box cover; 621. an arc-shaped blocking rib; 7. a touch control component; 8. a fixing assembly; 81. a lower fixing member; 811. a clamping part; 812. a limiting hole; 813. a grip portion; 814. a connecting portion; 815. a limiting part; 82. an upper fixing member; 83. and (6) a decorative cover.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

In addition, in the description of the present invention, it should be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", "transverse", "longitudinal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, a first feature "on" or "under" a second feature may be directly contacting the second feature or the first and second features may be indirectly contacting the second feature through intervening media. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In the embodiment shown in fig. 1 to 13, a water faucet includes a housing, the housing includes a fixing portion 1 extending along a first axis and a rotating portion 2 extending along a second axis, the fixing portion is rotatably connected to the rotating portion, in this embodiment, the first axis is perpendicular to the second axis, that is, the water faucet is L-shaped;

the adapter 3 is arranged at the joint of the rotating part and the fixed part, and comprises a movable component, a static component and a third water path conversion component 33, wherein the movable component is fixedly connected with the rotating part through a screw, the static component is fixedly connected with the fixed part through a screw, the movable component is connected with a water outlet pipe 51, the static component is connected with a water inlet pipe 41, an annular flow passage 324 is formed between the movable component and the static component, and the annular flow passage is communicated with the water inlet pipe 41 and the water outlet pipe 51; the movable component is rotationally connected with the static component, and when the movable component rotates to any position by taking the static component as an axis, the annular flow channel is always communicated with the water inlet pipe and the water outlet pipe; and water in the water inlet pipe flows to the water outlet pipe through the annular flow channel and then flows out from the water outlet of the water outlet faucet.

The water inlet pipe is connected to the static assembly along the direction of the first axis, the water outlet pipe is connected to the dynamic assembly along the direction of the second axis, and the water flow direction is changed from the first axis direction to the circumferential direction and then from the circumferential direction to the second axis direction.

As shown in fig. 3 to 5, the stationary component includes a first cylindrical water path conversion member 32, a water inlet channel 327 extending along a direction of a first axis is disposed at a bottom of the first water path conversion member, a sealing ring is disposed on the water inlet pipe, the water inlet pipe is connected to the water inlet channel in a sealing manner, an annular groove is disposed on a side wall of the first water path conversion member, the movable component includes a second cylindrical water path conversion member 31, a water outlet channel 311 extending along a second axis is disposed on a side wall of the second water path conversion member, the second water path conversion member is sleeved on an outer side of the first water path conversion member, the annular channel 324 is formed between the annular groove of the first water path conversion ring member and an inner side wall of the second water path conversion member, the annular channel communicates with the water inlet channel 327 and the water outlet channel 311, and the water outlet channel faces the annular channel. Second water route converting part is equipped with and extends along second axis direction has fixed muscle 312, and second water route converting part dorsad one side of fixed muscle is equipped with the screw hole, second water route converting part pass through fixed muscle 312 and screw hole with 2 fixed connection in rotation portion.

In this embodiment, the four annular grooves are hierarchically distributed on the first waterway conversion member along the first axial direction, four annular runners are formed in the adaptor member 3, an annular groove for mounting a sealing ring is formed between two adjacent annular runners, the sealing ring 326 is located in the annular groove, the sealing ring separates the two adjacent annular runners, the first waterway conversion member is provided with three water inlet runners 327, the second waterway conversion member is provided with three water outlet runners 311, the three water outlet runners are hierarchically distributed on the second waterway conversion member, the water inlet runners and the water outlet runners are respectively in one-to-one correspondence with the annular runners, the water inlet runners and the water outlet runners corresponding to the water inlet runners can realize normal-temperature water outlet, hot water outlet and cold water outlet or expanded functional water outlet, in this embodiment, cold water outlet, normal-temperature water outlet and hot water outlet are taken as examples, the water inlet runner includes a cold water inlet runner, a hot water inlet runner and a normal-temperature water inlet runner, and the water outlet runner includes a cold water outlet runner, a hot water outlet runner and normal-temperature water outlet.

The cold water inlet channel, the hot water inlet channel and the normal-temperature water inlet channel are uniformly distributed on the first water path conversion piece along the circumferential direction, a heat insulation area 328 is arranged between every two adjacent water inlet channels, a hollow area along the first axial direction is arranged on the first water path conversion piece, and the hollow area forms the heat insulation area.

Further, as shown in fig. 12 and 13, the adaptor further includes a third waterway conversion member 33, a water outlet of the third waterway conversion member is arranged side by side along the second axis, a water outlet of the third waterway conversion member is located at the same horizontal height, a water outlet pipe 51 is connected to the water outlet of the third waterway conversion member in a sealing manner, the third waterway conversion member includes three water pipes arranged side by side and connected to the water outlet channel in a sealing manner, a fixing lug 334 fixedly connected to the second waterway conversion member, and an abutting portion 333 abutting against the second waterway conversion member in a limiting manner, the three water pipes are arranged in a straight line shape, and include a hot water pipe 331 located in the middle, and a cold water pipe and a normal temperature water pipe located at both sides, the water pipes located at both sides form the abutting portion 333 near one end of the second waterway conversion member, that is, that one end of the water pipes located at both sides near the second waterway conversion member is provided with an arc surface abutting against the outer wall of the second waterway conversion member, so that one end of the water pipes located at both sides near the second waterway conversion member can completely abut against the outer wall of the second waterway conversion member, and is installed as a prompt that the third waterway conversion member is in place.

In this embodiment, four annular runners are a first annular runner, a second annular runner, a third annular runner and a fourth annular runner from top to bottom in sequence, the first annular runner is a hot water runner, the second annular runner is an exhaust runner, the third annular runner is a normal-temperature water runner, the fourth annular runner is a cold water runner, the hot water runner is communicated with a hot water overflow pipe 331, the normal-temperature water runner is communicated with the normal-temperature water overflow pipe, the cold water runner is communicated with a cold water overflow pipe, the first water path conversion member is further provided with an intake runner, the intake runner is connected with an intake pipe 42, the intake runner is communicated with the exhaust runner, the third water path conversion member further comprises an exhaust pipe 332, the exhaust pipe 332 is located below the hot water overflow pipe 331, one end of the exhaust pipe is communicated with the exhaust runner, the other end of the exhaust pipe is communicated with an exhaust pipe 52, the exhaust pipe 52 penetrates out from the middle of the rotating portion to be communicated with the outside, when the water purifier matched with the faucet of the present application has a hot tank or a water tank, the intake pipe is communicated with the hot tank or the water tank, and the hot tank can keep the air pressure in the tank constant through the exhaust pipe.

The water inlet pipe 41 comprises a hot water inlet pipe, a cold water inlet pipe and a normal temperature water inlet pipe, the water outlet pipe 51 comprises a hot water outlet pipe, a cold water outlet pipe and a normal temperature water outlet pipe, the hot water inlet pipe, the cold water inlet pipe, the normal temperature water inlet pipe and the air inlet pipe are connected to the first waterway conversion member along the first axis direction, the hot water inlet pipe, the cold water inlet pipe, the normal temperature water inlet pipe and the air inlet pipe are distributed along the axial direction of the first waterway conversion member, the hot water outlet pipe 331, the cold water outlet pipe, the normal temperature water outlet pipe and the air outlet pipe 52 are connected to the third waterway conversion member along the second axis direction, the hot water outlet pipe, the cold water outlet pipe, the normal temperature water outlet pipe and the air inlet pipe are distributed in a T shape, namely, the hot water outlet pipe, the cold water outlet pipe and the normal temperature water outlet pipe are distributed side by side, the air outlet pipe is positioned below the hot water outlet pipe, the hot water inlet pipe, the cold water inlet pipe, the normal temperature water inlet pipe and the air inlet pipe are distributed along the circumferential direction, under the condition that the diameter of a fixed portion is not influenced, the hot water inlet pipe, the distance in the hot water inlet pipe and the normal temperature water inlet pipe and the air inlet pipe are distributed in the T shape is increased, the water outlet pipe are distributed in the pipeline is reasonably utilized, and the original waterway flow passage, and the cold water outlet pipe are distributed in a reasonable space, and the T-shaped water outlet pipe, and the water outlet pipe are distributed in the original waterway flow passage are distributed in the T-shaped water outlet pipe, and the water outlet pipe are reasonably distributed, and the water outlet pipe are distributed in the water outlet pipe.

The static component further comprises an upper limiting piece 322 and a lower limiting piece 321 which are fixedly connected to two ends of the first waterway conversion piece 32, the lower limiting piece is fixedly connected into the fixing portion 1 through a screw, the second waterway conversion piece is fixedly connected into the rotating portion 2 through a screw, a sliding groove is formed among the upper limiting piece 322, the lower limiting piece 321 and the first waterway conversion piece, and the second waterway conversion piece 31 is rotatably connected into the sliding groove.

The upper limiting piece and the lower limiting piece are both in a sinking platform shape, the lower limiting piece is sequentially provided with a water inlet pipe penetrating area 3213, a fixing area 3212 for limiting the first waterway conversion piece and a sliding area 3211 for limiting the second waterway conversion piece from inside to outside, the edge of the penetrating area is provided with a positioning notch, and the bottom of the first waterway conversion piece is provided with a positioning pin matched with the positioning notch. A ball bearing table 3214 is arranged in the sliding region 3211, the ball bearing tables 3214 are circumferentially distributed in the sliding region, balls 325 are placed on the ball bearing table, a groove for accommodating the balls is formed in an end of the second waterway conversion member, and the second waterway conversion member is rotatably connected with the lower limiting member through the balls.

Specifically, as shown in fig. 6, the lower limiting member includes a circumferential wall and a bottom wall, the bottom wall is provided with a first fixing post 3215 extending along the second axial direction and a second fixing post 3216 extending along the first axial direction, the lower limiting piece is fixedly connected with the fixing part 1 through a first fixing column 3215, the hot water inlet pipe, the cold water inlet pipe, the normal temperature water inlet pipe and the air inlet pipe are fixedly connected with a pipeline fixing piece 43, the pipeline fixing member 43 connects the hot water inlet pipe, the cold water inlet pipe, the normal temperature water inlet pipe and the air inlet pipe as a whole, the pipeline fixing member 43 is fixedly connected with the second fixing column 3216 by screws, so as to prevent the hot water inlet pipe, the cold water inlet pipe, the normal temperature water inlet pipe and the air inlet pipe from being separated from the first waterway conversion member, the bottom wall is provided with ball bearing platforms 3214, four of the ball bearing platforms are distributed on the bottom wall along the circumferential direction, the annular area of the bottom wall where the ball bearing platforms are located forms the sliding area, the middle part of the bottom wall is also provided with a through hole which forms a penetrating area 3213 of the water inlet pipe, a fixing hole 3217 for a screw to pass through is arranged between the water inlet pipe passing area and the sliding area, the annular area on the bottom wall where the fixing hole 3217 is located forms the fixing area 3212, the first waterway conversion piece is fixed on the fixing area through a screw, the outer side wall of the first waterway conversion piece is abutted against the side wall of the ball bearing platform, namely, the first waterway conversion piece is limited among the four ball bearing platforms, the ball bearing platforms also play the role of limiting and installing the first waterway conversion piece, a sliding groove for mounting the second waterway conversion piece is enclosed between the annular wall of the sliding area and the lower limiting piece and the outer side wall of the first waterway conversion piece, and the second waterway conversion piece rotates in the sliding groove in a limiting mode.

The water-vapor separation device is characterized by further comprising a water-vapor separation box 6, wherein the water-vapor separation box is fixedly connected to the rotating portion, the water inlet end of the water-vapor separation box is connected with the water outlet end of the water outlet pipe, and the water outlet end of the water-vapor separation box forms a water outlet of the water outlet faucet.

Specifically, as shown in fig. 7-9, the water-vapor separation box 6 is disposed at the rotating portion, and includes a water inlet end and a water outlet end, an arc-shaped flow guide rib 611 and an arc-shaped flow distribution rib 612 are disposed in the water-vapor separation box in a reverse direction, an opening of the arc-shaped flow guide rib 611 faces the water inlet end, an opening of the arc-shaped flow distribution rib 612 faces the water outlet end, a first water passing area 614 is disposed in the middle of the arc-shaped flow guide rib, second water passing areas 615 are formed on two sides of the arc-shaped flow distribution rib, and the first water passing area 614 is opposite to the arc-shaped flow distribution rib 612.

The middle part of arc water conservancy diversion muscle is equipped with water passing channel, water passing channel forms first water district of crossing, arc reposition of redundant personnel muscle both ends with form between the inside wall of vapor separation box the water district is crossed to the second, arc water conservancy diversion muscle is less than in the ascending height of primary axis direction the arc reposition of redundant personnel muscle is at the ascending height of primary axis direction, the top of arc water conservancy diversion muscle with be formed with the third between the top of arc reposition of redundant personnel muscle and cross water district 616.

Steam separation box includes lid 62 and box body 61, arc water conservancy diversion muscle all sets up with arc reposition of redundant personnel muscle on the box body 61, be equipped with arc fender muscle 621 on the lid, arc fender muscle 621 is located between arc water conservancy diversion muscle and the end of intaking, arc fender muscle is just right the end of intaking.

The water inlet end comprises three water inlets which are arranged side by side, and a separation rib 613 is arranged between every two adjacent water inlets. The bottom of the box body is obliquely arranged, and the water outlet end is arranged at the lowest position of the bottom of the box body. The water outlet end comprises a water outlet nozzle 618, the water outlet of the water outlet tap is the water outlet nozzle 618, the inner wall of the water outlet nozzle is provided with a water gathering and guiding rib 619, the water gathering and guiding rib 619 is circumferentially and annularly arranged on the inner wall of the water outlet, and the water gathering and guiding rib extends towards the center of the water outlet nozzle. Gather water conservancy diversion muscle and be parallelogram shape, gather water conservancy diversion muscle and include upside, downside, fixed side and extend the side, it is equipped with the water clearance to extend between the side, orientation is all followed to upper and lower both sides the central direction downward sloping setting of faucet. The middle part of the arc-shaped shunting rib is provided with an exhaust passage 617 for communicating the inside of the water-vapor separation box with the outside of the water-vapor separation box.

The three water inlets are respectively a hot water inlet positioned in the middle, a cold water inlet and a normal temperature water inlet positioned on two sides, the hot water inlet is connected with a hot water outlet pipe, the cold water inlet is connected with a cold water outlet pipe, the normal temperature water inlet is connected with a normal temperature water outlet pipe, a separation rib 613 is arranged between the hot water inlet and the cold water inlet, and the separation rib is arranged between the hot water inlet and the normal temperature water inlet to prevent the phenomena of splashing, vortex and the like when multiple water is discharged simultaneously; the box cover is provided with an arc-shaped retaining rib, the arc-shaped retaining rib is partially overlapped with the arc-shaped flow guide rib, and the arc-shaped retaining rib is over against the three water inlets, so that water entering the water-steam separation box preferentially impacts the arc-shaped retaining rib, the water flow speed is reduced, the water flow is guided to the first water passing area, the water flow is prevented from directly passing the arc-shaped flow guide rib, the opening of the arc-shaped flow guide rib faces the water inlets, the water flowing in from the water inlets can further flow slowly through the arc-shaped flow guide rib, the slowly flowing water flows to the arc-shaped flow distribution rib from the first water passing area in the middle of the arc-shaped flow guide rib, the arc-shaped flow distribution rib is over against the first water passing area, the water flowing through the first water passing area further slowly flows and is distributed through the arc-shaped flow distribution rib, the water flows to the water outlet end from the second water passing area, the water flows to the water outlet end in the middle of the second water passing area on two sides, the water passing area, the water outlet end is ensured in a water type effect, the water-steam separation is carried out for a plurality of times, and bubbles are fully broken gas is discharged from the exhaust channel; when the water flow entering the water-steam separation box is large, in order to prevent the first water passing area from being incapable of discharging water in time, the water flow flows to the arc-shaped diversion rib from a third water passing area formed between the top end of the arc-shaped diversion rib and the top end of the arc-shaped diversion rib; when water flow is great, rivers are along the inner wall discharge steam separation box of faucet, when water flow is less, rivers flow along the water gathering water conservancy diversion muscle of faucet inner wall, the water gathering water conservancy diversion muscle has the drainage, the effect of assembling, water type when guaranteeing the low discharge and go out water, the steam separation box of this application leads to and joins in marriage large-traffic play water and low discharge and goes out water, and sets up reverse open-ended arc water conservancy diversion muscle and arc reposition of redundant personnel muscle, the backward flow is collected through the striking, the striking is shunted, steam separation is effectual, rivers are stable.

As shown in fig. 10 and 11, the faucet further includes a fixing assembly 8, the fixing assembly includes an upper fixing member 82 located on the table top and a lower fixing member 81 penetrating through the table top, the upper fixing member 82 is fixedly connected to the fixing portion, the upper fixing member is in threaded connection with the lower fixing member, a clamping groove for clamping the table top is formed between the upper fixing member and the lower fixing member, the lower fixing member is provided with a limiting hole 812 for limiting the lower fixing member to rotate, and the upper fixing member is rotated to change the width of the clamping groove.

The lower fixing piece comprises a cylindrical main body and a clamping part 811 annularly arranged on the main body, the clamping part divides the main body into a thread part positioned at the upper part and a holding part 813 positioned at the lower part, and the thread part is provided with external threads. The thread part comprises a limiting part 815 positioned above and a connecting part 814 positioned below from top to bottom, the limiting hole 812 is arranged in the limiting part, the limiting hole penetrates through the limiting part along the radial direction, the wall thickness of the limiting part is greater than that of the connecting part, and the wall thickness of the connecting part is greater than that of the connecting part. The upper fixing piece is a fixing nut, the lower end face of the fixing nut and the clamping portion form the clamping groove, the upper fixing piece is provided with an internal thread matched with the external thread of the thread portion, the bottom of the fixing portion is provided with a fixing edge, and the fixing edge is fixedly connected with the upper fixing piece through a screw.

Specifically speaking, lower mounting includes the main part of tube-shape and encircles the ring muscle of establishing in the main part outside, the ring muscle constitutes the clamping part, goes up the mounting and is fastening nut, forms the double-layered groove that is used for pressing from both sides tight mesa between fixation nut and the ring muscle, goes up the mounting from last to including spacing portion, connecting portion and the portion of gripping down in proper order, is equipped with on the spacing portion and radially runs through the spacing hole of spacing portion, during the installation, the operator holds the portion of gripping and passes the mounting hole of mesa down with mounting, overlaps fixation nut behind lower mounting from the mesa top, utilizes straight-bar or screwdriver to pass spacing hole, keeps straight-bar or screwdriver motionless, rotates fixation nut, presss from both sides the fastening regularly, and operating personnel both hands all are located the mesa top, and only fixed mounting under one hand prevents that mounting from rotating down, and another hand rotates fixation nut, and is up to, lower mounting presss from both sides tight mesa, passes upper and lower mounting with the inlet tube afterwards, with the fixed edge of fixed part bottom, the turn-ups of fixed part bottom, fix on fixation nut through the fix with the screw, will cover 83 on the fixation nut at last. This application goes out tap's fixed the operation that is located mesa top, need not that operating personnel bends to the mesa below fixed, easy operation, convenient, light.

The touch control device is characterized by further comprising a touch control assembly 7, wherein the touch control assembly comprises a touch control screen and an electric control board, the touch control assembly is installed at the top end of the rotating portion, and the static assembly is provided with a threading hole 323 for penetrating through a power line of the electric control board.

The water inlet pipe and the water outlet pipe of the present application can be made of PE pipes or stainless steel pipes, and the present embodiment is preferably made of stainless steel pipes.

The utility model can be realized by adopting or using the prior art for reference in places which are not mentioned in the utility model.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A faucet, comprising:

the shell comprises a fixed part extending along a first axis and a rotating part extending along a second axis, and the fixed part is rotatably connected with the rotating part;

the adapter comprises a movable component and a static component, the movable component is fixedly connected with the rotating part, the static component is fixedly connected with the fixed part, the movable component is connected with a water outlet pipe, the static component is connected with a water inlet pipe, an annular flow passage is formed between the movable component and the static component, and the annular flow passage is communicated with the water inlet pipe and the water outlet pipe;

the movable component is rotatably connected with the static component, and when the movable component rotates to any position relative to the static component, the annular flow channel is always communicated with the water inlet pipe and the water outlet pipe; and water in the water inlet pipe flows to the water outlet pipe through the annular flow channel and then flows out from the water outlet of the water outlet faucet.

2. The faucet of claim 1, wherein the adaptor is disposed at a connection between the rotating portion and the fixing portion, the water inlet pipe is connected to the stationary component along a direction of the first axis, the water outlet pipe is connected to the movable component along a direction of the second axis, and a water flow direction is changed from the first axis to a circumferential direction and then from the circumferential direction to the second axis.

3. The faucet of claim 2, wherein the movable component and the stationary component are disposed inside and outside, the movable component is located outside the stationary component, and the annular flow channel is formed between an inner sidewall of the movable component and an outer sidewall of the stationary component, or the movable component is located inside the stationary component, and the annular flow channel is formed between an outer sidewall of the movable component and an inner sidewall of the stationary component.

4. The faucet of claim 3, wherein the static assembly includes a first waterway conversion member, a water inlet channel is disposed at a bottom of the first waterway conversion member, an annular groove is disposed on a side wall of the first waterway conversion member, the dynamic assembly includes a second waterway conversion member, a water outlet channel is disposed on a side wall of the second waterway conversion member, the second waterway conversion member is sleeved on an outer side of the first waterway conversion member, the annular channel is formed between the annular groove of the first waterway conversion ring member and an inner side wall of the second waterway conversion member, and the annular channel communicates the water inlet channel and the water outlet channel.

5. The faucet of claim 4, wherein the annular grooves are distributed in a hierarchical manner along the first axial direction on the first waterway conversion member, a plurality of annular flow channels are formed in the conversion member, a sealing ring for sealing is disposed between two adjacent annular flow channels, the first waterway conversion member is provided with a plurality of water inlet flow channels, the second waterway conversion member is provided with a plurality of water outlet flow channels, and the water inlet flow channels and the water outlet flow channels are respectively in one-to-one correspondence with the annular flow channels.

6. The faucet of claim 4, wherein the stationary assembly further includes an upper stopper and a lower stopper fixedly connected to two ends of the first waterway conversion member, the lower stopper is fixedly connected to the fixed portion, the second waterway conversion member is fixedly connected to the rotating portion, a sliding slot is formed between the upper stopper, the lower stopper and the first waterway conversion member, and the second waterway conversion member is rotatably connected to the sliding slot.

7. The faucet of claim 6, wherein the lower retainer is shaped like a sink, the lower retainer is provided with a water inlet pipe passing area, a fixing area for limiting the first waterway conversion member, and a sliding area for limiting the second waterway conversion member in sequence from inside to outside, the edge of the passing area is provided with a positioning notch, and the bottom of the first waterway conversion member is provided with a positioning pin matched with the positioning notch.

8. The faucet of claim 7, wherein the sliding region is provided with ball bearing platforms, the ball bearing platforms are circumferentially distributed in the sliding region, balls are placed on the ball bearing platforms, the end portion of the second waterway conversion member is provided with a groove for accommodating the balls, and the second waterway conversion member is rotatably connected with the lower limiting member through the balls.

9. The faucet of claim 1, further comprising a water-vapor separation box, wherein the water-vapor separation box is fixedly connected to the rotating portion, a water inlet end of the water-vapor separation box is connected to a water outlet end of the water outlet pipe, and a water outlet end of the water-vapor separation box forms a water outlet of the faucet.

10. The faucet of claim 1, further comprising a touch assembly, wherein the touch assembly comprises a touch screen and an electric control board, the touch assembly is mounted at the top end of the rotating portion, and the stationary assembly is provided with a threading hole through which a power line of the electric control board passes.

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