CN215720984U - Magnetic suction type water tap with multiple water outlets - Google Patents

Abstract

The utility model discloses a magnetic suction type faucet with multiple water outlets, which comprises a faucet body, wherein the faucet body is provided with a water inlet end and a water outlet end, and the water inlet end is connected with a tap water inlet channel and a direct drinking water inlet channel; the tap body is connected with a water inlet valve which is used for controlling the communication of a tap water inlet channel or a direct drinking water inlet channel; the tap water pipe is connected with the water outlet end and is communicated with the tap water inlet channel, and one end of the tap water pipe, which is far away from the tap body, is connected with a water outlet nozzle so as to output tap water; the direct drinking water pipe is communicated with the direct drinking water inlet channel, one end of the direct drinking water pipe is rotatably arranged on the faucet body, and the other end of the direct drinking water pipe is provided with a direct drinking water outlet so as to output direct drinking water. According to the magnetic suction type water faucet with multiple water outlets, a direct drinking water pipe and a tap water pipe are arranged on one water faucet, the direct drinking water pipe and the tap water pipe are respectively provided with corresponding water outlets, and the direct drinking water pipe and the tap water pipe can be independently opened and closed, so that the magnetic suction type water faucet is convenient to use and safe in water use.

Description

Magnetic suction type water tap with multiple water outlets

Technical Field

The utility model relates to the technical field of water faucets, in particular to a magnetic attraction type water faucet with multiple water outlets.

Background

The water provided by the water tap is usually used for washing food such as vegetables, fish and the like, can also be used for washing dishes and pots, and can also be used for drinking after being boiled or directly drinking. Different purposes have different requirements on water quality, tap water is usually used for washing vegetables and fish, warm water or hot water is needed for washing dishes and pots, and pure water with less impurities is needed for drinking after boiling or direct drinking.

At present, in the existing water outlet equipment, part of the existing water outlet equipment is provided with two water taps which respectively control a direct drinking water pipeline and a tap water pipeline, the structure is complex, and the production cost of the water taps is increased; there is the part only to be equipped with a tap, sets up two raceway in a tap inside, carries directly drinking water and cold and hot running water respectively, but a delivery port of sharing goes out water for can thoughtlessly have the running water of remaining on the delivery port when directly drinking water goes out water, thereby influence water safety.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the utility model provides the magnetic suction type water faucet with the multiple water outlets, a direct drinking water pipe and a tap water pipe are arranged on one water faucet, the direct drinking water pipe and the tap water pipe are respectively provided with corresponding water outlets, and the direct drinking water pipe and the tap water pipe can be independently opened and closed, so that the magnetic suction type water faucet is convenient to use and safe in water use.

According to the embodiment of the first aspect of the utility model, the magnetic suction type faucet with multiple water outlets comprises a faucet body, a water inlet pipe and a water outlet pipe, wherein the water inlet end is connected with a tap water inlet channel and a direct drinking water inlet channel; the tap body is connected with a water inlet valve which is used for controlling the communication of a tap water inlet channel or a direct drinking water inlet channel; the tap water pipe is connected with the water outlet end and is communicated with the tap water inlet channel, and one end of the tap water pipe, which is far away from the tap body, is connected with a water outlet nozzle so as to output tap water; the direct drinking water pipe is communicated with the direct drinking water inlet channel, one end of the direct drinking water pipe is rotatably arranged on the faucet body, and the other end of the direct drinking water pipe is provided with a direct drinking water outlet so as to output direct drinking water.

The magnetic attraction type faucet with multiple water outlets provided by the embodiment of the utility model at least has the following technical effects: the faucet body is connected with a water inlet valve, and the water inlet valve can control independent switches of a plurality of water inlet channels. The tap water pipe is communicated with the tap water inlet channel to output tap water, and the tap water pipe can be used for cleaning food or kitchenware. The direct drinking water pipe is communicated with the direct drinking water inlet channel to output direct drinking water. The direct drinking water pipe is rotatably arranged on the faucet body, the direct drinking water pipe is rotated from the upper part of the water tank during cleaning, and the direct drinking water pipe is rotated to a position convenient for receiving when direct drinking water is needed.

According to some embodiments of the utility model, the faucet body is also internally provided with a cold water channel and a hot water channel, and the cold water channel and the hot water channel are both connected with the water inlet end; the tap water inlet channel is connected with the cold water channel and the hot water channel, and the communication of the hot water channel or the cold water channel can be controlled through the water inlet valve so as to convey water with different temperatures to the tap water inlet channel.

According to some embodiments of the utility model, a control valve is arranged in the direct drinking water pipe, and the control valve is rotatably arranged on one side of the direct drinking water outlet, which is far away from the faucet body, and is used for controlling the opening and closing of the direct drinking water outlet.

According to some embodiments of the present invention, a faucet has multiple water outlet modes, the faucet includes a housing, a water inlet member, and a water outlet assembly; the water inlet part is connected with the water outlet assembly and is sequentially arranged in the shell, and water flows into the water outlet assembly through the water inlet part and then flows out of the water outlet assembly; be equipped with the switching subassembly in the piece of intaking, can change the mode that rivers got into out the water subassembly through the switching subassembly to the rivers of output different grade type.

According to some embodiments of the utility model, the water outlet assembly comprises a fixed seat and a water diversion body, the fixed seat is connected with the water inlet piece, and the water diversion body is rotatably connected to one end of the fixed seat, which is far away from the water inlet piece; the fixed seat is provided with a water inlet hole, the water inlet hole comprises a first water inlet hole and a second water inlet hole, and the water diversion body is provided with a first water diversion structure and a second water diversion structure, wherein the first water diversion structure is communicated with the first water inlet hole, and the second water diversion structure is communicated with the second water inlet hole; the switching component can enable water flow to flow into the first water inlet hole or the second water inlet hole from the water inlet piece so as to output different types of water flows.

According to some embodiments of the present invention, the water outlet assembly further includes a water outlet body, the water outlet body is fixedly connected to one end of the water dividing body away from the fixing base, and the water outlet body is provided with a plurality of water outlet holes, including a first water outlet hole, a second water outlet hole, a third water outlet hole and a fourth water outlet hole; the first water dividing structure is a first water dividing hole, and the first water inlet hole and the first water dividing hole are communicated with the first water outlet hole; the second divides the water structure to include second branch water hole, third branch water hole and fourth branch water hole, and the second divides the water hole to be linked together with the second apopore, and the third divides the water hole to be linked together with the third apopore, and the fourth divides the water hole to be linked together with the fourth apopore, and the second divides the water hole, the third branch water hole and the fourth branch water hole can be linked together with the second inlet opening along with the rotation of dividing the water in proper order.

According to some embodiments of the present invention, the first water outlet is disposed at a center position of the water outlet body, and the second water outlet, the third water outlet and the fourth water outlet are sequentially disposed around the first water outlet along a rotation direction of the water outlet body.

According to some embodiments of the present invention, a first flow passage, a second flow passage and a third flow passage are provided in the water inlet member, the first flow passage is communicated with the second flow passage or the third flow passage through a switching passage, the second flow passage is communicated with the first water inlet hole, and the third flow passage is communicated with the second water inlet hole; the switching assembly is arranged in the switching channel, has a first state and a second state and can be switched between the first state and the second state; when the switching component is in the first state, the first flow passage is communicated with the second flow passage, and when the switching component is in the second state, the first flow passage is communicated with the third flow passage.

According to some embodiments of the present invention, the switching assembly includes a sealing shaft, the sealing shaft is slidably mounted in the switching channel, one end of the sealing shaft extends out of the water inlet member, and the other end of the sealing shaft is provided with a plug.

According to some embodiments of the present invention, the tap water pipe is a U-shaped pipe, the tap water pipe is provided with a support arm, one end of the support arm is rotatably connected to one end of the tap water pipe away from the water outlet nozzle, the other end of the support arm is provided with a bayonet, a first magnetic block is arranged on the support arm near the bayonet, the upper end of the water outlet nozzle is provided with a second magnetic block, and the upper portion of the water outlet nozzle can be fixed in the bayonet by the attraction of the first magnetic block to the second magnetic block.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of an installation structure of an embodiment of the present invention;

FIG. 2 is an exploded view of an embodiment of the present invention;

FIG. 3 is a cross-sectional view of an embodiment of the present invention;

FIG. 4 is a partial structural schematic view of a straight drinking water pipe;

FIG. 5 is a schematic view of the spout;

FIG. 6 is an exploded view of the spout;

FIG. 7 is a schematic structural view of the switching assembly in a first state;

FIG. 8 is a schematic view of the switch assembly in a second state (output shower);

FIG. 9 is a schematic of the switch assembly in a second state (outputting blade water);

fig. 10 is a schematic structural diagram of the switching assembly in the second state (outputting a straight water column).

Reference numerals:

the faucet comprises a faucet body 100, a water inlet end 101, a water outlet end 102, a tap water inlet channel 110, a cold water channel 111, a hot water channel 112, a direct drinking water inlet channel 120 and a water inlet valve 130;

the water supply pipe 200, the supporting arm 210, the bayonet 211, the positioning block 212 and the positioning groove 213;

a direct drinking water pipe 300, a direct drinking water outlet 310, a control valve 320, a sleeve 321, a valve core 322, a first circulation port 323, a second circulation port 324 and an operation cover 325;

the water outlet nozzle 400, the housing 410, the operation opening 411, the button 412, the water inlet member 420, the first flow channel 421, the second flow channel 422, the third flow channel 423, the switching channel 424, the relief opening 425, the hinge shaft 426, the fixing seat 430, the first water inlet 431, the second water inlet 432, the water distribution body 440, the first water distribution hole 441, the second water distribution hole 442, the third water distribution hole 443, the fourth water distribution hole 444, the sealing gasket 445, the connecting member 450, the switching member 460, the sealing shaft 461, the plug 462, the bushing 463, the return spring 464, the water outlet body 470, the first water outlet hole 471, the bubbler 472, the second water outlet hole 473, the fan-shaped groove 474, the third water outlet hole 475, the water outlet cavity 476, the water outlet nozzle 477, the fourth water outlet hole 478 and the gland 480.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element so 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. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 3, the magnetic-attraction type faucet with multiple water outlets according to the embodiment of the present invention includes a faucet body 100, a tap water pipe 200, and a direct drinking water pipe 300.

The faucet body 100 has a water inlet end 101 and a water outlet end 102. referring to FIG. 1, in this embodiment, water flows downward and upward into the faucet body 100, so the water inlet end 101 is disposed at the lower portion of the faucet body 100, and the water outlet end 102 is disposed at the upper portion of the faucet body 100. The water inlet end 101 is connected with a tap water inlet passage 110 and a direct drinking water inlet passage 120; the faucet body 100 is connected with a water inlet valve 130, and the water inlet valve 130 is used for controlling the communication of the tap water inlet passage 110 or the direct drinking water inlet passage 120.

If the inlet valve 130 controls the tap water inlet passage 110 to be closed, the direct drinking water inlet passage 120 is opened, and water flows to the water outlet end 102 through the direct drinking water inlet passage 120; if the direct drinking water inlet channel 120 is controlled to be closed by the water inlet valve 130, the tap water inlet channel 110 is opened, and water flows to the water outlet end 102 through the tap water inlet channel 110; if the water inlet valve 130 controls the closing of the tap water inlet passage 110 and the direct drinking water inlet passage 120, the utility model is closed.

The tap water pipe 200 is connected to the water outlet end 102, the tap water pipe 200 is communicated with the tap water inlet passage 110, and one end of the tap water pipe 200 away from the faucet body 100 is connected to the water outlet nozzle 400 to output tap water, which can be used for cleaning food or kitchen ware.

The direct drinking water pipe 300 is communicated with the direct drinking water inlet passage 120, one end of the direct drinking water pipe 300 is rotatably arranged on the faucet body 100, and the other end is provided with a direct drinking water outlet 310 to output direct drinking water. Because the utility model is applied to places such as kitchen sink and the like, when food kitchenware needs to be cleaned, the direct drinking water pipe 300 is fixed above the sink and may interfere with the operation of a user, therefore, the direct drinking water pipe 300 is rotatably arranged on the tap body 100, the direct drinking water pipe 300 is rotated from the upper part of the sink during cleaning, and the direct drinking water pipe 300 is rotated to a position convenient for taking when direct drinking water is needed.

Specifically, a filter element is arranged in the direct drinking water pipe 300, tap water enters the direct drinking water pipe 300 through the direct drinking water inlet channel 120, is changed into drinkable direct drinking water after being filtered and purified by the filter element, and then flows out from the direct drinking water outlet 310.

Referring to fig. 3, in some embodiments of the present invention, a cold water channel 111 and a hot water channel 112 are further disposed in the faucet body 100, and both the cold water channel 111 and the hot water channel 112 are connected to the water inlet end 101; the tap water inlet passage 110 is connected to both the cold water passage 111 and the hot water passage 112, and the communication between the hot water passage 112 and the cold water passage 111 can be controlled by the water inlet valve 130, so as to deliver water with different temperatures to the tap water inlet passage 110.

Specifically, a heater is disposed in the hot water channel 112, and if the cold water channel 111 is controlled to be closed by the water inlet valve 130, the hot water channel 112 is opened, water flows into the hot water channel 112, and then flows into the tap water inlet channel 110 and then flows out of the hot water from the water outlet end 102 after being heated by the heater. If the inlet valve 130 controls the hot water channel 112 to be closed, the cold water channel 111 is opened, and water flows into the cold water channel 111 and then flows out of the cold water from the water outlet end 102. If the water inlet valve 130 controls the cold water channel 111 and the hot water channel 112 to be opened, water flows respectively enter the tap water inlet channel 110 from the cold water channel 111 and the hot water channel 112, and cold and hot mixed water flows out of the water outlet end 102 after mixing; the opening degree of the cold water channel 111 and the hot water channel 112 can be adjusted by controlling the water inlet valve 130, so that the proportion of cold water and hot water in the tap water inlet channel 110 is changed, and the temperature of cold and hot mixed water is adjusted.

Referring to fig. 3 to 4, in some embodiments of the present invention, a control valve 320 is disposed in the drink-through water pipe 300, and the control valve 320 is rotatably disposed at a side of the drink-through water outlet 310 away from the faucet body 100, for controlling opening and closing of the drink-through water outlet 310.

Specifically, the control valve 320 comprises a sleeve 321 and a valve core 322, the valve core 322 is rotatably arranged in the sleeve 321, a first circulation port 323 is formed in the sleeve 321, the first circulation port 323 is located above the direct drinking water outlet 310, and the first circulation port 323 is communicated with the direct drinking water outlet 310; the valve core 322 is provided with a second circulation opening 324, the valve core 322 can rotate to the second circulation opening 324 to be communicated with the first circulation opening 323, so that the direct drinking water outlet 310 is opened, direct drinking water enters the control valve 320 from the second circulation opening 324, flows to the direct drinking water outlet 310 from the first circulation opening 323, and finally flows out from the direct drinking water outlet 310. The end of the straight drinking water pipe 300 far away from the faucet body 100 is provided with an operating cover 325, the operating cover 325 is fixedly connected with the valve core 322, and the valve core 322 can be driven to rotate by rotating the operating cover 325.

Referring to fig. 4, the number of the first circulation ports 323 and the second circulation ports 324 is two, the two first circulation ports 323 are respectively disposed at positions of the sleeve 321 that are vertically symmetrical, and the two second circulation ports 324 are respectively disposed at two symmetrical sides of the valve element 322, so as to increase the water output and improve the water output efficiency.

Referring to fig. 5-6, in some embodiments of the utility model, faucet 400 has multiple outlet modes (i.e., different shapes of the water streams flowing from faucet 400), and faucet 400 includes a housing 410, an inlet member 420, and an outlet assembly; the water inlet part 420 is connected with the water outlet assembly and is sequentially arranged in the shell 410, and water flows into the water outlet assembly through the water inlet part 420 and then flows out of the water outlet assembly; the switching assembly 460 is arranged in the water inlet part 420, and the mode that water flows into the water outlet assembly can be changed through the switching assembly 460, so that different types of water flows can be output, and different use requirements can be met.

Referring to fig. 5 to 6, in a further embodiment of the present invention, the water outlet assembly includes a fixing base 430 and a water diversion body 440, the fixing base 430 is connected to the water inlet member 420, and the water diversion body 440 is rotatably connected to an end of the fixing base 430 far away from the water inlet member 420. Referring to fig. 7 to 8, the fixing base 430 has water inlets, the water inlets include a first water inlet 431 and a second water inlet 432, and the water diversion body 440 is provided with a first water diversion structure communicated with the first water inlet 431 and a second water diversion structure communicated with the second water inlet 432 respectively; the switching assembly 460 may close the second water inlet hole 432 or the first water inlet hole 431, and the switching assembly 460 may allow the water to flow into the first water inlet hole 431 or the second water inlet hole 432 from the water inlet member 420 and flow out through the first water dividing structure or the second water dividing structure, where the shapes of the water flows output from the first water dividing structure and the second water dividing structure are different. A sealing gasket 445 is arranged between the water distributing body 440 and the fixing seat 430, and a yielding structure corresponding to each hole is arranged on the sealing gasket 445.

Referring to fig. 5 to 6, in a further embodiment of the present invention, the water outlet assembly further includes a water outlet body 470, the water outlet body 470 is fixedly connected to an end of the water dividing body 440 away from the fixing base 430, and a plurality of water outlet holes, including a first water outlet hole 471, a second water outlet hole 473, a third water outlet hole 475, and a fourth water outlet hole 478, are disposed on the water outlet body 470.

The first water dividing structure is a first water dividing hole 441, the first water inlet hole 431 and the first water dividing hole 441 are communicated with the first water outlet hole 471, and when water flows into the first water inlet hole 431, the water flow is output from the first water outlet hole 471. The second water dividing structure includes a second water dividing hole 442, a third water dividing hole 443 and a fourth water dividing hole 444, the second water dividing hole 442 is communicated with the second water outlet 473, the third water dividing hole 443 is communicated with the third water outlet 475, the fourth water dividing hole 444 is communicated with the fourth water outlet 478, and the second water dividing hole 442, the third water dividing hole 443 and the fourth water dividing hole 444 can be sequentially communicated with the second water inlet 432 along with the rotation of the water dividing body 440. Specifically, referring to fig. 5, if the water outlet body 470 is rotated counterclockwise, the second water outlet 473, the third water outlet 475, and the fourth water outlet 478 are alternately communicated with the second water inlet 432, and the water flowing in from the second water inlet 432 is output from the second water outlet 473, the third water outlet 475, or the fourth water outlet 478.

Specifically, referring to fig. 6 to 7, the water inlet member 420 is installed in the housing 410 through a connection member 450, and the connection member 450 is provided at an upper portion thereof with a screw thread for connecting with the water pipe 200, thereby fixing the water outlet nozzle 400 to the end of the water pipe 200. Referring to fig. 7, the specific installation manner of the present invention is that the connecting member 450, the water inlet member 420, and the water outlet assembly (the fixing base 430, the water dividing body 440, and the water outlet body 470) are sequentially installed in the housing 410 from bottom to top, the outer periphery of the fixing base 430 is provided with an external thread, after the water outlet assembly is installed in the housing 410, the external thread is connected with the internal thread of the housing 410, so that the connecting member 450, the water inlet member 420, and the water outlet assembly are sequentially abutted, and the connecting member 450, the water inlet member 420, and the water outlet assembly are fixed in the housing 410.

Referring to fig. 5, in a further embodiment of the present invention, the first outlet 471 is disposed at a center position of the water outlet body 470, and the second outlet 473, the third outlet 475, and the fourth outlet 478 are sequentially disposed around the first outlet 471 along a rotation direction of the water outlet body 470.

Specifically, a bubbler 472 is disposed in the first water outlet hole 471, the water output from the bubbler 472 is concentrated water (fig. 7), and the concentrated water may be bubble water, soft water or pinhole water; a fan-shaped groove 474 is formed in the bottom surface of the water outlet body 470, the second water outlet 473 is a small circular hole, the plurality of second water outlet 473 are uniformly distributed in the fan-shaped groove 474, and water flow output from the plurality of second water outlet 473 is shower water (fig. 8); the third water outlet 475 includes a semi-ellipsoidal or hemispherical water outlet cavity 476, a V-shaped groove is disposed at the bottom end of the water outlet cavity 476, the V-shaped groove is communicated with the water outlet cavity 476 to form a long and narrow water outlet nozzle 477, water flows into the water outlet cavity 476 and is sprayed out from the water outlet nozzle 477, and the water flows suddenly accelerated when flowing from a larger cavity into a small cross section and then passes through the water outlet nozzle 477 formed by the V-shaped groove, so that a centrifugal force is generated, and according to the theory of hydrodynamics, the water flows are differentiated by the centrifugal force and guided to form a flaky water bloom, so that the water flow output from the third water outlet 475 is blade water, and has a larger impact force and a wider coverage range (fig. 9); the fourth outlet aperture 478 is a large circular aperture, and the water flow outputted from the fourth outlet aperture 478 is a straight water column (fig. 10).

Specifically, referring to fig. 7, the present invention further includes a gland 480, the gland 480 is provided with an internal thread, the water diversion body 440 is provided with an external thread, the gland 480 is installed after the water outlet body 470 is placed at the bottom of the water diversion body 440, the gland 480 abuts against the water outlet body 470, the gland 480 is rotated to fix the gland 480 and the water diversion body 440 in a threaded connection manner, so that the gland 480, the water outlet body 470 and the water diversion body 440 are fixed; during the use, rotatory gland 480 can drive water outlet body 470 and the rotation of minute water body 440, and second apopore 473, third apopore 475 and fourth apopore 478 can communicate with second inlet opening 432 in turn to realize the switching of the different grade type of output rivers.

Referring to fig. 7 to 8, in a further embodiment of the present invention, a first flow channel 421, a second flow channel 422 and a third flow channel 423 are provided in the water inlet member 420, the first flow channel 421 is communicated with the second flow channel 422 or the third flow channel 423 through a switching channel 424, the second flow channel 422 is communicated with a first water inlet 431, and the third flow channel 423 is communicated with a second water inlet 432; the switching component 460 is arranged in the switching channel 424, and the switching component 460 has a first state and a second state and can be switched between the first state and the second state; referring to fig. 7, when the switching assembly 460 is in the first state, the switching assembly 460 closes the third flow channel 423 (i.e., closes the second water inlet hole 432), and the first flow channel 421 communicates with the second flow channel 422 (water flows into the first water inlet hole 431 and flows out of the first water outlet hole 471); referring to fig. 8 to 10, when the switch assembly 460 is in the second state, the switch assembly 460 closes the second flow channel 422 (i.e., closes the first inlet hole 431), and the first flow channel 421 communicates with the third flow channel 423 (water flows into the second inlet hole 432 and flows out of the second outlet hole 473, the third outlet hole 475, or the fourth outlet hole 478).

Referring to fig. 6 to 7, in a further embodiment of the present invention, the switching assembly 460 includes a sealing shaft 461, the sealing shaft 461 is slidably installed in the switching channel 424, one end of the sealing shaft 461 extends out of the water inlet member 420, and the other end is provided with a plug 462. Referring to fig. 7, when the switching assembly 460 is in the first state, the plug 462 moves to the inlet of the third flow channel 423, the third flow channel 423 is closed, and the second flow channel 422 is communicated with the first flow channel 421; referring to fig. 8, when the switching assembly 460 is in the second state, the plug 462 moves to the inlet of the second flow channel 422, the second flow channel 422 is closed, and the third flow channel 423 is communicated with the first flow channel 421.

Specifically, the switching assembly 460 further includes a bushing 463, the bushing 463 is fixedly installed in the water inlet member 420, and the sealing shaft 461 penetrates and is slidably disposed in the bushing 463. The water inlet member 420 is provided with a position-giving opening 425, the housing 410 is provided with an operation opening 411 corresponding to the position-giving opening 425, and one end of the sealing shaft 461, which is far away from the plug 462, can pass through the position-giving opening 425 and extend out of the operation opening 411.

Preferably, the sealing shaft 461 is sleeved with a return spring 464, one end of the return spring 464 is connected with the plug 462, and the other end is connected with the sleeve 463. The end of the sealing shaft 461 extending out of the operation opening 411 is connected with a button 412. referring to fig. 6, the button 412 is hinged on the water inlet member 420, the hinge shaft 426 is positioned in the range of the operation opening 411, and after all the structures in the housing 410 are installed, the button 412 is connected with the hinge shaft 426 and installed outside the housing 410.

The button 412 can be turned around the hinge shaft 426, in this embodiment, the shaft sleeve 463 and the sealing shaft 461 are installed in the water inlet member 420 along the horizontal direction, referring to fig. 8, the user presses the upper portion of the button 412 to the left, the lower portion of the button 412 rotates counterclockwise, the sealing shaft 461 is pulled to the right, so that the plug 462 moves to the right to the inlet of the second flow passage 422, the switching assembly 460 is in the second state, and water can only enter from the third flow passage 423; referring to fig. 7, when the user releases the button 412, the sealing shaft 461 is reset to the left by the return spring 464, the button 412 is reset by rotating clockwise, the plug 462 is moved to the left at the inlet of the third flow channel 423, the switching assembly 460 is in the first state, and water can only enter from the second flow channel 422.

Referring to fig. 2, in some embodiments of the present invention, the water pipe 200 is a U-shaped pipe, the water pipe 200 is provided with a supporting arm 210, one end of the supporting arm 210 is rotatably connected to one end of the water pipe 200 away from the water outlet nozzle 400, the other end of the supporting arm is provided with a bayonet 211, a first magnetic block is arranged on the supporting arm 210 close to the bayonet 211, the upper end of the water outlet nozzle 400 is provided with a second magnetic block, and the upper portion of the water outlet nozzle 400 can be fixed in the bayonet 211 by the attraction of the first magnetic block to the second magnetic block.

Since the water pipe 200 is generally configured as an elastic water pipe, the water nozzle 400 is fixed only by magnetic force and is not positioned by other positioning components, when a user accidentally touches the water pipe 200, the elastic water pipe 200 may be ejected, so that the user may be injured or collide with other objects, thereby damaging the internal structure. Therefore, preferably, the present invention further includes a positioning structure, the positioning structure includes a positioning groove 213 and a positioning block 212, the positioning groove 213 is disposed at one end of the support arm 210 close to the bayonet 211, the positioning block 212 is disposed at an upper portion of the water nozzle 400 and extends in a vertical direction, and the positioning block 212 is matched with the positioning groove 213. When the nozzle 400 is magnetically attracted and attached to the bayonet 211, the nozzle 400 is moved downward, so that the positioning block 212 is embedded into the positioning groove 213, thereby positioning the nozzle 400 in the bayonet 211.

The using method of the utility model comprises the following steps: the gland 480 is rotated, and when the shower water needs to be output, the second water outlet 473 is aligned with the second water inlet 432; when blade water is required to be output, the third water outlet 475 is aligned with the second water inlet 432; when a straight water column needs to be output, the fourth water outlet 478 is aligned with the second water inlet 432; then, the upper portion of the button 412 is pressed to the left, and the sealing shaft 461 is pulled to the right, so that the plug 462 moves to the inlet of the second flow channel 422, and the water only enters the second water inlet 432 through the third flow channel 423, and then flows out through the second water outlet 473, the third water outlet 475, or the fourth water outlet 478, respectively.

When concentrated water needs to be output, the button 412 is loosened, the return spring 464 drives the sealing shaft 461 to return to the left, the button 412 returns by rotating clockwise, the plug 462 moves to the inlet of the third flow channel 423 in the left direction, and water only can enter the first water inlet hole 431 from the second flow channel 422 and then enters the bubbler 472 from the first water outlet hole 471 and flows out of the bubbler 472.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example" or "some examples" or the like are intended to 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 utility model. In this specification, the schematic representations of the terms used above do not necessarily 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.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. The utility model provides a formula tap is inhaled to magnetism of multichannel play water which characterized in that includes:

the tap body (100) is provided with a water inlet end (101) and a water outlet end (102), and the water inlet end (101) is connected with a tap water inlet channel (110) and a direct drinking water inlet channel (120); the tap body (100) is connected with a water inlet valve (130), and the water inlet valve (130) is used for controlling the communication of a tap water inlet channel (110) or a direct drinking water inlet channel (120);

the tap water pipe (200) is connected to the water outlet end (102), the tap water pipe (200) is communicated with the tap water inlet channel (110), and one end, away from the faucet body (100), of the tap water pipe (200) is connected with a water outlet nozzle (400) so as to output tap water;

the direct drinking water pipe (300) is communicated with the direct drinking water inlet channel (120), one end of the direct drinking water pipe (300) is rotatably arranged on the faucet body (100), and the other end of the direct drinking water pipe is provided with a direct drinking water outlet (310) to output direct drinking water.

2. The magnetic-suction type faucet with multiple water outlets as claimed in claim 1, wherein: a cold water channel (111) and a hot water channel (112) are further arranged in the faucet body (100), and the cold water channel (111) and the hot water channel (112) are both connected with the water inlet end (101); the tap water inlet channel (110) is connected with the cold water channel (111) and the hot water channel (112), and the communication of the hot water channel (112) or the cold water channel (111) can be controlled through the water inlet valve (130) so as to convey water with different temperatures to the tap water inlet channel (110).

3. The magnetic-suction type faucet with multiple water outlets as claimed in claim 1, wherein: a control valve (320) is arranged in the direct drinking water pipe (300), and the control valve (320) is rotatably arranged on one side of the direct drinking water outlet (310) far away from the faucet body (100) and used for controlling the opening and closing of the direct drinking water outlet (310).

4. The magnetic-suction type faucet with multiple water outlets as claimed in claim 1, wherein: the water outlet nozzle (400) has multiple water outlet modes, and the water outlet nozzle (400) comprises a shell (410), a water inlet piece (420) and a water outlet assembly; the water inlet part (420) is connected with the water outlet assembly and is sequentially arranged in the shell (410), and water flows into the water outlet assembly through the water inlet part (420) and then flows out of the water outlet assembly; a switching assembly (460) is arranged in the water inlet part (420), and the mode of water flow entering the water outlet assembly can be changed through the switching assembly (460) so as to output different types of water flow.

5. The multi-way magnetic water faucet as claimed in claim 4, wherein: the water outlet assembly comprises a fixed seat (430) and a water distribution body (440), the fixed seat (430) is connected with the water inlet part (420), and the water distribution body (440) is rotatably connected to one end, far away from the water inlet part (420), of the fixed seat (430); the fixed seat (430) is provided with a water inlet hole, the water inlet hole comprises a first water inlet hole (431) and a second water inlet hole (432), and a first water dividing structure communicated with the first water inlet hole (431) and a second water dividing structure communicated with the second water inlet hole (432) are arranged on the water dividing body (440); water flow from the water inlet member (420) into the first water inlet hole (431) or the second water inlet hole (432) may be caused by the switching assembly (460) to output different types of water flows.

6. The multi-way magnetic water faucet as recited in claim 5, further comprising: the water outlet assembly further comprises a water outlet body (470), the water outlet body (470) is fixedly connected to one end, far away from the fixing seat (430), of the water distributing body (440), and a plurality of water outlet holes are formed in the water outlet body (470) and comprise a first water outlet hole (471), a second water outlet hole (473), a third water outlet hole (475) and a fourth water outlet hole (478); the first water dividing structure is a first water dividing hole (441), and the first water inlet hole (431) and the first water dividing hole (441) are communicated with the first water outlet hole (471); the second divides the water structure to include second branch water hole (442), third branch water hole (443) and fourth branch water hole (444), the second divide water hole (442) with second apopore (473) are linked together, third branch water hole (443) with third apopore (475) are linked together, fourth branch water hole (444) with fourth apopore (478) are linked together, second branch water hole (442), third branch water hole (443) and fourth branch water hole (444) can be followed divide the rotation of water (440) in proper order with second inlet opening (432) are linked together.

7. The magnetic-suction type faucet with multiple water outlets as claimed in claim 6, wherein: the first water outlet (471) is arranged at the center of the water outlet body (470), and the second water outlet (473), the third water outlet (475) and the fourth water outlet (478) are sequentially arranged on the periphery of the first water outlet (471) along the rotation direction of the water outlet body (470).

8. The magnetic-suction type faucet with multiple water outlets as claimed in claim 6, wherein: a first flow channel (421), a second flow channel (422) and a third flow channel (423) are arranged in the water inlet part (420), the first flow channel (421) is communicated with the second flow channel (422) or the third flow channel (423) through a switching channel (424), the second flow channel (422) is communicated with the first water inlet hole (431), and the third flow channel (423) is communicated with the second water inlet hole (432); the switching assembly (460) is arranged in the switching channel (424), the switching assembly (460) has a first state and a second state, and can be switched between the first state and the second state; the first flow passage (421) communicates with the second flow passage (422) when the switching assembly (460) is in the first state, and the first flow passage (421) communicates with the third flow passage (423) when the switching assembly (460) is in the second state.

9. The magnetic-suction type faucet with multiple water outlets as claimed in claim 8, wherein: the switching assembly (460) comprises a sealing shaft (461), the sealing shaft (461) is slidably mounted in the switching channel (424), one end of the sealing shaft (461) extends out of the water inlet part (420), the other end of the sealing shaft (461) is provided with a plug (462), when the switching assembly (460) is in a first state, the plug (462) moves to an inlet of the third flow channel (423), the third flow channel (423) is closed, and the second flow channel (422) is communicated with the first flow channel (421).

10. The magnetic-suction type faucet with multiple water outlets as claimed in claim 1, wherein: the water supply pipe (200) is a U-shaped pipe, a support arm (210) is arranged on the water supply pipe (200), one end of the support arm (210) is rotatably connected to one end, far away from the water outlet nozzle (400), of the water supply pipe (200), a bayonet (211) is arranged at the other end of the support arm, a first magnetic block is arranged on the support arm (210) close to the bayonet (211), a second magnetic block is arranged at the upper end of the water outlet nozzle (400), and the upper portion of the water outlet nozzle (400) can be fixed in the bayonet (211) through attraction of the first magnetic block to the second magnetic block.

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