Water outlet device capable of hovering and being pulled

By setting a guide trajectory and a counterweight design on the inner wall of the guide tube, the problems of arm fatigue and gear switching reset during the use of pull-out faucets are solved, and the convenience of multi-gear suspension and direct gear switching is achieved.

CN122383046APending Publication Date: 2026-07-14GUANGDONG WEIXIANG SANITARY WARE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
GUANGDONG WEIXIANG SANITARY WARE
Filing Date
2026-05-22
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing pull-out faucets require continuous pulling force on the pull tube during use, leading to arm fatigue. Furthermore, when switching gears, the faucet must be reset to the initial position before switching to the next gear.

Method used

Guide tracks are set on the inner wall of the guide tube, including an upward guide track, a reset guide track, and a switching guide track. Combined with the design of the counterweight block, the multi-position hovering and direct position switching of the pull tube can be realized.

Benefits of technology

It enables the pull-out tube to freely hover in multiple positions and switch positions directly without needing to be reset to the initial position, thus improving ease of use and comfort.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides a water outlet device capable of pulling and hovering, which comprises a pulling pipe, a guide pipe and a positioning member rotatably arranged on the pulling pipe, a guide track is arranged on the inner wall of the guide pipe, and a plurality of hovering points are arranged. The guide track and the hovering points arranged on the inner wall of the guide pipe can realize free hovering of a plurality of gears, and the device can be directly switched from the current gear to any gear behind or any gear in front, without resetting to the initial gear and then switching gears, so that the device is convenient and fast.
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Description

Technical Field

[0001] This invention relates to the field of faucet technology, and more specifically, to a water outlet device that can be pulled out and suspended. Background Technology

[0002] Pull-out faucets typically use a pull-out tube structure, allowing users to pull out the faucet head along with the water pipe for easy adjustment of the water flow direction. This offers flexibility and convenience, making it easy to clean sinks, countertops, and other areas. However, during the pull-out process, users need to overcome the weight of the pull-out tube and the counterweight, continuously applying pulling force to the tube. Prolonged use can easily lead to arm fatigue for users.

[0003] Existing technologies, such as the invention patent with application number CN202411402648.1, provide a pull-out faucet that discloses that the pull-out tube can be suspended at a certain position when pulled out, so that the user does not need to continuously apply pulling force to the pull-out tube. However, it has the following shortcomings:

[0004] To switch to the next gear, the pull tube must be reset to its initial position before switching to the next gear can be performed. Summary of the Invention

[0005] In view of this, the purpose of the present invention is to provide a water outlet device that can be pulled out and suspended to solve the above problems.

[0006] The present invention adopts the following solution: This application provides a water outlet device capable of being pulled out and suspended, comprising a pull-out tube, a guide tube, and a positioning component rotatably mounted on the pull-out tube. The device is characterized in that: a guide trajectory is provided on the inner wall of the guide tube; the guide trajectory includes an upward guide trajectory, a return guide trajectory, multiple suspension points disposed between the upward guide trajectory and the return guide trajectory, and a switching guide trajectory intersecting with the upward guide trajectory and the return guide trajectory; a counterweight is also provided at the lower end of the pull-out tube. When the pull tube is pulled out for the first time, the positioning element can move upward along the upward guide trajectory, and under the action of the counterweight, the pull tube can be suspended at one of the suspension points when it retracts. When the pull-out tube is pulled out for the second time, the positioning component can move upward along the switching guide trajectory and retract to hover at the next hovering point under the action of the counterweight; or the positioning component can re-enter the rising guide trajectory along the switching guide trajectory and retract to hover at any subsequent hovering point under the action of the counterweight; or the positioning component can retract on its own under the action of the counterweight after entering the reset guide trajectory, and when the pull-out tube is pulled out for the third time, the positioning component can enter the switching guide trajectory, or enter the rising guide trajectory through the switching guide rail, and retract to hover at any hovering point under the action of the counterweight. When the pull tube is pulled out for the second time, and the positioning component moves upward without exceeding the upper limit of the next hovering point, the positioning component will move downward to the initial position via the reset guide trajectory under the action of the counterweight.

[0007] Furthermore, the guide tube includes a first semi-circular guide tube and a second semi-circular guide tube with guide tracks; and the guide tracks on the first semi-circular guide tube and the guide tracks on the second semi-circular guide tube are symmetrically arranged.

[0008] Furthermore, the guide tube is disposed inside the faucet body and / or sleeve and / or water outlet bend.

[0009] Furthermore, the guide trajectory is a guide trajectory groove provided on the side wall of the guide tube, and the hovering point is an upward-opening groove; the positioning element is a rotating ring rotatably connected to the pull tube, and the side of the rotating ring is provided with a boss that can move in the guide trajectory groove and hover on the groove.

[0010] Furthermore, multiple sets of positioning islands and guide islands are arranged side by side along the direction in which the pull-out tube is drawn out on the inner wall of the guide tube; the positioning island is provided with the hovering point; the lower guide part of the guide island is positioned above the opening of the groove; the upper guide part of the guide island is positioned above the upper left position of the next groove.

[0011] Furthermore, a first guide portion is provided on the left side of the lower guide portion of the first group of guide islands, above the upper left position of the positioning island; a second guide portion is provided on the upper left side of the upper guide portion of each subsequent guide island; a third guide portion is provided on the upper right side of the lower guide portion of each guide island; and a fourth guide portion is provided on the lower right side of the positioning island of the first group.

[0012] Furthermore, a first guide edge is provided on the right side of the lower guide portion of the guide island, with its lowest point located to the left of the hovering point; a second guide edge is provided connected to the first guide edge and is positioned towards the third guide portion; the connection point of the first guide edge and the second guide edge is located to the right or flush with the right upper limit position of the positioning island in the vertical direction; the upper guide portion of the guide island is provided with a third guide edge facing the left upper limit position of the next positioning island, and a fourth guide edge is connected to the third guide edge; the connection point of the third guide edge and the fourth guide edge is located to the right or flush with the left upper limit position of the next positioning island in the vertical direction.

[0013] Furthermore, the upper left and upper right positions of the groove are both provided with guide surfaces.

[0014] By adopting the above technical solution, the present invention can achieve the following technical effects: This invention provides a water outlet device that can be pulled out and hovered. Through the guide trajectory and hovering point set on the inner wall of the guide tube, it can achieve free hovering at multiple gears, and can directly switch to any gear after the current gear or any gear before the current gear, without having to reset to the initial gear and then switch gears, which is convenient and quick. Attached Figure Description

[0015] To more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of the present invention and should not be regarded as a limitation of the scope. For those skilled in the art, other related drawings can be obtained from these drawings without creative effort.

[0016] Figure 1 This is a schematic diagram of a water outlet device that can be pulled out and suspended according to an embodiment of the present invention; Figure 2 This is an exploded structural diagram of a water outlet device that can be pulled out and suspended according to an embodiment of the present invention; Figure 3 This is a schematic diagram of the semi-circular guide tube structure of a water outlet device capable of being pulled out and suspended according to an embodiment of the present invention. Figure 1 ; Figure 4 This is a schematic diagram of the semi-circular guide tube structure of a water outlet device capable of being pulled out and suspended according to an embodiment of the present invention. Figure 2 ; Figure 5 This is a schematic diagram of the semi-circular guide tube structure of a water outlet device capable of being pulled out and suspended according to an embodiment of the present invention. Figure 3 ; Figure 6This is a diagram showing the movement trajectory of the positioning component when the pull-out tube is first pulled out and hovers at the first hovering point according to an embodiment of the present invention. Figure 7 This is the movement trajectory of the positioning component when switching to the second hovering point in this embodiment of the invention. Figure 1 ; Figure 8 This is the movement trajectory of the positioning component when switching to the second hovering point in this embodiment of the invention. Figure 2 ; Figure 9 This is a diagram showing the movement trajectory of the positioning component when switching to the third hovering point according to an embodiment of the present invention; Figure 10 This is the movement trajectory of the positioning component during reset according to an embodiment of the present invention. Figure 1 ; Figure 11 This is the movement trajectory of the positioning component during reset according to an embodiment of the present invention. Figure 2 ; Figure 12 This is a schematic diagram of the positioning component structure of a water outlet device that can be pulled out and suspended according to an embodiment of the present invention; Figure 13 This is a diagram showing the movement trajectory of the positioning component in an embodiment of the present invention when it switches from the fourth hovering point to the third hovering point. Reference numerals: 1. Pull-out tube; 2. Guide tube; 3. Positioning component; 4. Track line A; 5. Track line B; 6. Track line C; 7. Sleeve; 8. Positioning island; 9. Guide island; 10. Hovering point; 11. Upper left position point; 12. First guide part; 13. Second guide part; 14. Third guide part; 15. Fourth guide part; 16. First guide edge; 17. Second guide edge; 18. Third guide edge; 19. Fourth guide edge; 20. Rotary ring; 21. Boss; 22. Upper right position point; 23. Lower guide part; 24. Body; 25. Water outlet bend; 26. Operating handle; 27. Fixed seat; 28. Counterweight block; 29. Detailed Implementation

[0017] To make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of the present invention, not all of them. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention. Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to represent selected embodiments of the invention. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0018] Example Combination Figures 1 to 13 As shown, this embodiment provides a water outlet device that can be pulled out and hovered, including a pull-out pipe 1, a guide pipe 2, and a positioning member 3 rotatably disposed on the pull-out pipe. The inner wall of the guide pipe 2 is provided with a guide trajectory and multiple hovering points 10. When the pull tube 1 is pulled out for the first time, the positioning member 3 can move upward along the guide trajectory and can hover at one of the hovering points 10 when the pull tube 1 retracts. When the pull tube 1 is pulled out for the second time, the positioning member 3 can move upward again along the guide trajectory and retract to hover at the next arbitrary hovering point, or retract to the initial position; When the pull tube 1 is pulled out for the second time and then retracts a certain distance before being pulled out for the third time, the positioning component 3 can move upward again along the guide trajectory and retract to hover at any of the hovering points.

[0019] Specifically, in this embodiment, such as Figure 1 and Figure 2 As shown, the retractable and hovering water outlet device further includes a body 25, a water outlet bend 26 connected to the body 25, a valve core disposed on the body 25, and an operating handle 27 for controlling the valve core. The retractable tube 1 is placed inside the body 25 and the water outlet bend 26, and one end of it is connected to a water outlet nozzle. A sleeve 7 is connected inside the body 25, and the sleeve 7 fixes the body 25 to the table surface by a fixing seat 28 and a nut.

[0020] In this embodiment, the guide trajectory is a guide trajectory groove disposed on the inner sidewall of the guide tube. The guide trajectory groove includes an upward guide trajectory groove, a reset guide trajectory groove, a plurality of hovering points 10 disposed between the upward guide trajectory groove and the reset guide trajectory groove, and a switching guide trajectory groove intersecting with the upward guide trajectory groove and the reset guide trajectory groove.

[0021] like Figure 12 As shown, the positioning component 3 is a rotating ring 20 rotatably connected to the pull tube 1. The side of the rotating ring 20 is provided with a boss 21 that can move in the trajectory guide groove and hover on the positioning point. The boss 21 can move in the trajectory guide groove.

[0022] When the pull-out tube 1 is pulled out for the first time, the positioning member 3 can move upward along the rising guide track groove and hover at one of the hovering points 10 when the pull-out tube 1 retracts. When the pull-out tube 1 is pulled out for the second time, the positioning member 3 can move upward through the switching guide track groove. When it does not exceed the upper guide portion 23 of the next guide island 9, it can retract and hover at the next hovering point 10. When the positioning member 3 moves upward beyond the upper guide portion 23 of the next guide island 9, the positioning member 3 enters the rising guide track groove through the switching guide track groove and can retract and hover at any of the subsequent hovering points 10. When the positioning member 3 moves upward beyond the right upper limit point 22 of the current hovering point 10 and does not exceed the left upper limit point 11 of the next hovering point 10, the positioning member 3 will move downward through the reset guide track groove to the initial position. Alternatively, the positioning element 3 may retract on its own after entering the reset guide track groove, and when the pull tube is pulled out for the third time, the positioning element may enter the switching guide track groove, or it may pass through the switching guide track groove and retract to hover at any of the hovering points.

[0023] Specifically, such as Figures 3 to 5 As shown, the trajectory slot where trajectory line A 4 is located is the rising guide trajectory slot, the trajectory slot where trajectory line B 5 is located is the reset guide trajectory slot, and the trajectory slot where trajectory line C 6 is located is the switching guide trajectory slot.

[0024] The guide tube 2 is disposed within the sleeve 7 and extends into the straight section of the outlet bend 26; it includes a first semi-circular guide tube 2 and a second semi-circular guide tube 2 with trajectory guide grooves; and the trajectory guide grooves on the first semi-circular guide tube 2 and the second semi-circular guide tube 2 are symmetrically arranged. The semi-circular guide tube 2 is easy to mold and can be injection molded from plastic.

[0025] Among them, such as Figure 3As shown, multiple sets of positioning islands 8 and guide islands 9 are arranged side-by-side along the direction in which the pull-out tube 1 is drawn out on the inner wall of the guide tube 2. The positioning island 8 has an upper-opening groove forming the hovering point 10. The lower guide portion 24 of the guide island 9 is positioned above the opening of the groove. The upper guide portion 23 of the guide island 9 is positioned above the upper left position 11 of the next groove. To the left of the lower guide portion 24 of the first set of guide islands 9, a first guide portion 12 is positioned above the upper left position 11 of the positioning island 8. This first guide portion 12 cooperates with the lower guide portion 24 of the guide island 9 to allow the positioning member 3 to hover at the hovering point 10 of the first positioning island 8 when it descends. Each of the subsequent guide islands 9 has a second guide section 13 located on the upper left side of the upper guide section 23, allowing the positioning member 3 to descend to other hovering points 10. In other words, the second guide section 13 prevents the positioning member 3 from returning to the first hovering point 10 as it moves downward within the upward guide track groove. Instead, it guides the positioning member 3 through the upper guide section 23 of the positioning island 8, allowing it to descend and hover to the next hovering point 10. It should be noted that the next hovering point 10 refers to the next hovering point 10 along the upward direction of the current hovering point 10 within the upward guide track groove, not a hovering point 10 below the current hovering point 10.

[0026] Each of the guide islands 9 has a third guide section 14 on the upper right side of the lower guide section 24. The guide section 14 is generally triangular and has two guide edges. It enables the positioning member 3 to enter the switching guide track groove when it continues to rise. A fourth guide section 15 is provided on the lower right side of the positioning islands 8 in the first group so that the positioning member 3 can rise along the rising guide track groove when it rises from the initial position.

[0027] Specifically, a first guide edge 16 is provided on the right side of the lower guide portion 24 of the guide island 9, with its lowest point located to the left of the hovering point 10; a second guide edge 17 is provided connected to the first guide edge 16 and is positioned towards the third guide portion 14; the connection point of the first guide edge 16 and the second guide edge 17 is located to the right or flush with the right upper limit point 22 of the positioning island 8 in the vertical direction, so that the positioning member 3 will not fall into the hovering point 10 when descending, but will descend from the reset guide trajectory groove to the initial position. The upper guide portion 23 of the guide island 9 is provided with a third guide edge 18 facing the left upper limit point 11 of the next positioning island 8, and a fourth guide edge 19 connected to the third guide edge 18; the connection point of the third guide edge 18 and the fourth guide edge 19 is located to the right or flush with the left upper limit point 11 of the next positioning island 8 in the vertical direction, so that the positioning member 3 will not enter the switching guide trajectory groove when descending, but will fall into the hovering point 10.

[0028] In this embodiment, a counterweight 29 is also provided at the lower end of the pull tube 1 so that the pull tube 1 can quickly retract under the action of the weight of the counterweight 29 and can be better suspended on the suspension point 10 under the action of the counterweight 29.

[0029] Preferably, the upper left position 11 and the upper right position 22 of the groove are both provided with guide surfaces. This allows the boss 21 to smoothly fall onto the hovering point 10 or enter the reset guide track groove for reset, preventing the rotor from getting stuck inside the track.

[0030] Furthermore, the guide tube 2 can be installed inside the sleeve 7 that fixes the faucet body 25 to the countertop, or inside the water outlet bend 26 that connects to the faucet body 25, or inside the faucet body 25; of course, it can also have sufficient length to be placed inside the above three, or any two.

[0031] The following is a detailed explanation of the pull-out process: First, the positioning element 3 is in its initial position; When the pull-out tube 1 is pulled out for the first time, as Figure 6As shown, the positioning member 3 is driven to rise along the upward guide track groove. When the positioning member 3 passes the upper left position 11 of the first hovering point 10 and does not exceed the upper limit of the first guide island 9, the positioning member 3 can freely descend and hover on the first hovering point 10. When the positioning member 3 exceeds the upper limit of the second guide island 9 and does not exceed the upper limit of the third guide island 9, the positioning member 3 can freely descend and hover on the second hovering point 10. And so on. When the pull tube 1 is pulled out for the first time, it can hover on the hovering point 10 of a certain position according to the distance it is pulled out.

[0032] When the positioning element 3 is placed on one of the hovering points 10 and a gear needs to be switched, the pull tube 1 is pulled out for the second time. The positioning element 3 rises from the hovering point 10, enters the reset guide track groove and continues to rise, and then enters the switching guide track groove and continues to rise. When the positioning element 3 passes the upper left left position 11 of the next hovering point 10, the positioning element 3 can freely descend and hover on the hovering point 10. After the positioning element 3 passes the upper left left position 11 of the next hovering point 10, it continues to rise and enters the rising guide track groove. The positioning element 3 can then retract and hover on any subsequent hovering point 10.

[0033] Specifically, such as Figure 7 and Figure 8 As shown, taking the current positioning element 3 placed at the first hovering point 10 as an example, the pull tube 1 is pulled out for the second time, and the positioning element 3 rises from the hovering point 10. After the positioning element 3 passes the upper left position 11 of the second hovering point 10, the positioning element 3 can freely descend and hover on the second hovering point 10. Figure 9 As shown, after the positioning element 3 passes the upper left position 11 of the second hovering point 10, it continues to rise into the rising guide trajectory groove. After the positioning element 3 passes the upper guide part 23 of the third guide island 9, the positioning element 3 can freely descend and hover on the third hovering point 10. After the positioning element 3 passes the upper guide part 23 of the fourth guide island 9, the positioning element 3 can freely descend and hover on the fourth hovering point 10, and so on.

[0034] When the pull-out tube 1 is pulled out for the first time, the positioning member 3 hovers at the hovering point 10 at the middle or high point. When the pull-out tube 1 is pulled out for the second time, it enters the reset guide track groove and then retracts a certain distance. When the pull-out tube 1 is pulled out for the third time, the positioning member 3 can enter the switching guide track groove, or pass through the switching guide track groove and retract to hover at any of the hovering points. Specifically, as shown... Figure 13As shown, when the pull tube 1 is pulled out for the first time, the positioning member 3 hovers at the fourth hovering point 10. When the pull tube 1 is pulled out for the second time, it enters the reset guide track groove and then retracts itself to a position not exceeding the lower end of the second positioning island 8. When the pull tube 1 is pulled out for the third time, the positioning member 3 can enter the switching guide track groove and continue to rise. When the positioning member 3 rises above the upper left position 11 of the third positioning island 8 and does not exceed the upper guide part 23 of the third guide island 9, the positioning member 3 can freely descend and hover at the third hovering point 10, thereby realizing downshifting.

[0035] Of course, after the pull-out tube 1 is pulled out for the second time and enters the reset guide track groove, it will automatically retract to a different distance. Then, when it is pulled out for the third time, the positioning member 3 can be suspended at the second suspension point 10 or the first suspension point 10. When it is pulled out for the third time, the positioning member 3 can enter the switching guide track groove and continue to rise and enter the rising guide track groove. It can also be suspended at any suspension point above the fourth suspension point 10 (the process is the same as when the pull-out tube 1 is pulled out for the first time).

[0036] When the pull-out tube 1 needs to be reset, such as Figure 10 and Figure 11 As shown. The pull tube 1 is pulled out a certain distance so that the positioning member 3 rises past the right upper limit point 22 of the hovering point 10, but does not exceed the left upper limit point 11 of the next hovering point 10. The positioning member 3 can then freely descend and return to the initial position through the reset guide track groove.

[0037] The water outlet device, which can be pulled out and hovered, has an upward guide track groove, a reset guide track groove, a hovering point 10, and a switching guide track groove that intersects with the upward guide track groove and the reset guide track groove on the inner wall of the guide pipe 2. It can achieve hovering at multiple gears and can directly switch to any subsequent gear from the current gear without resetting to the initial gear and then switching gears, which is convenient and quick.

[0038] The above are merely preferred embodiments of the present invention. The scope of protection of the present invention is not limited to the above embodiments. All technical solutions that fall within the scope of the present invention are within the scope of protection of the present invention.

[0039] In the description of this invention, it should be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," and "counterclockwise," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this invention.

[0040] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this invention, "a plurality of" means two or more, unless otherwise explicitly specified.

[0041] In this invention, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.

[0042] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.

Claims

1. A water outlet device capable of being pulled out and suspended, comprising a pull-out tube, a guide tube, and a positioning element rotatably disposed on the pull-out tube, characterized in that: The inner wall of the guide tube is provided with a guide trajectory; the guide trajectory includes an upward guide trajectory, a reset guide trajectory, multiple hovering points set between the upward guide trajectory and the reset guide trajectory, and a switching guide trajectory that intersects with the upward guide trajectory and the reset guide trajectory; a counterweight is also provided at the lower end of the pull-out tube; When the pull tube is pulled out for the first time, the positioning element can move upward along the upward guide trajectory, and under the action of the counterweight, the pull tube can be suspended at one of the suspension points when it retracts. When the pull-out tube is pulled out for the second time, the positioning component can move upward along the switching guide trajectory and retract to hover at the next hovering point under the action of the counterweight; or the positioning component can re-enter the rising guide trajectory along the switching guide trajectory and retract to hover at any subsequent hovering point under the action of the counterweight; or the positioning component can retract on its own under the action of the counterweight after entering the reset guide trajectory, and when the pull-out tube is pulled out for the third time, the positioning component can enter the switching guide trajectory, or enter the rising guide trajectory through the switching guide rail, and retract to hover at any hovering point under the action of the counterweight. When the pull tube is pulled out for the second time, and the positioning component moves upward without exceeding the upper limit of the next hovering point, the positioning component will move downward to the initial position via the reset guide trajectory under the action of the counterweight.

2. The water outlet device capable of being pulled out and suspended according to claim 1, characterized in that, The guide tube includes a first semi-circular guide tube and a second semi-circular guide tube with guide tracks; and the guide tracks on the first semi-circular guide tube and the guide tracks on the second semi-circular guide tube are symmetrically arranged.

3. The water outlet device capable of being pulled out and suspended according to claim 1, characterized in that, The guide tube is installed inside the faucet body and / or sleeve and / or water outlet bend.

4. The water outlet device capable of being pulled out and suspended according to any one of claims 1-3, characterized in that, The guide trajectory is a guide trajectory groove set on the side wall of the guide tube, and the hovering point is an upward-opening groove; the positioning element is a rotating ring rotatably connected to the pull tube, and the side of the rotating ring is provided with a boss that can move in the guide trajectory groove and hover on the groove.

5. The water outlet device capable of being pulled out and suspended according to claim 4, characterized in that, Multiple sets of positioning islands and guide islands are arranged side by side along the direction in which the pull-out tube is drawn out; the positioning island is provided with the hovering point; the lower guide part of the guide island is positioned above the opening of the groove; the upper guide part of the guide island is positioned above the upper left position of the next groove.

6. The water outlet device capable of being pulled out and suspended according to claim 5, characterized in that, On the left side of the lower guide portion of the first group of guide islands, a first guide portion is provided above the upper left position of the positioning island; a second guide portion is provided on the upper left side of the upper guide portion of each subsequent guide island; a third guide portion is provided on the upper right side of the lower guide portion of each guide island; and a fourth guide portion is provided on the lower right side of the positioning island of the first group.

7. The water outlet device capable of being pulled out and suspended according to claim 6, characterized in that, The lower guide portion of the guide island has a first guide edge on its right side, with its lowest point located to the left of the hovering point; a second guide edge is connected to the first guide edge and faces the third guide portion; the connection point of the first guide edge and the second guide edge is located to the right or flush with the upper right position of the positioning island in the vertical direction; the upper guide portion of the guide island has a third guide edge facing the upper left position of the next positioning island, and a fourth guide edge connected to the third guide edge; the connection point of the third guide edge and the fourth guide edge is located to the right or flush with the upper left position of the next positioning island in the vertical direction.

8. The water outlet device capable of being pulled out and suspended according to claim 4, characterized in that, The upper left and upper right positions of the groove are both provided with guide surfaces.