A water outlet device

Abstract

The utility model discloses a water outlet device, including body, switching part and rotating part. Body is equipped with the water inlet, first water distribution mouth and first water outlet of being suitable for passing water in proper order, switching part is equipped with stress part, rotating part is rotated and is connected with the body around the axis parallel to the first direction, and rotating part is equipped with force application part, and one of force application part and stress part is the protruding, and the other is the recess that is suitable for the protruding insertion, and at least one of protruding and recess is spiral, so that protruding and recess slope surface cooperate, thereby make force application part suitable for drive stress part to make switching part relative body along the first direction sliding, make the plugging part block or open first water distribution mouth, realize switching function. This mode does not need to reset spare, and can realize switching without closing waterway. At the same time, because the protruding inserts the recess, rotating part cannot directly relative switching part and separate along the first direction under normal circumstances, guarantees the stability of assembly.

Description

Technical Field

[0001] This utility model relates to the field of water discharge products, specifically to a water discharge device. Background Technology

[0002] In existing water outlet devices, water circuit switching is usually achieved by sliding a switching element. In existing technologies, the switching element is usually driven to slide by a button and a reset element. When the button is pressed, the switching element is driven to slide. At this time, the reset element stores energy, and the position of the switching element is maintained under the action of water pressure. In order to reset the switching element, it is usually necessary to turn off the water circuit and release the energy of the reset element to reset the button and the switching element, which is quite cumbersome. Utility Model Content

[0003] The purpose of this utility model is to overcome the above-mentioned defects or problems existing in the background art or to provide a material basis for overcoming the above-mentioned defects or problems existing in the background art, and to provide a water outlet device.

[0004] To achieve the above objectives, the present invention and its preferred embodiments adopt the following technical solutions, but the embodiments are not limited to the following solutions:

[0005] Option 1: A water outlet device, including...

[0006] The main body is equipped with an inlet, a first branch inlet, and a first outlet suitable for sequential water flow;

[0007] A switching component is provided with a blocking part and a force-receiving part. The switching component is adapted to slide in a first direction with the body so that the blocking part blocks or opens the first water outlet.

[0008] A rotating component is rotatably connected to the body about an axis parallel to a first direction. It is provided with a force-applying part, which is adapted to drive the force-receiving part to make the switching component slide. One of the force-applying part and the force-receiving part is a protrusion, and the other is a groove adapted for the protrusion to be inserted. At least one of the protrusion and the groove is spiral-shaped so that the inclined surfaces of the protrusion and the groove engage.

[0009] Option 2, based on Option 1, the main body includes a water inlet and a water outlet. The water inlet is provided with the water inlet and the first water outlet, and the water outlet is provided with the first water outlet. The water outlet and the water inlet are rotatably connected about a first axis perpendicular to the first direction.

[0010] Option 3, based on Option 2, further includes a sealing ring. The water outlet component has a rotating part with a water outlet channel that communicates with the first water outlet. The rotating part extends in a direction parallel to the first axis and is rotatably connected to the water inlet component, allowing the water outlet channel to communicate with the first water outlet. The inner and outer rings of the sealing ring abut against the rotating part and the water inlet component, respectively.

[0011] Option 4, based on Option 2, the water outlet component is provided with a receiving groove and a water outlet channel communicating with the receiving groove, the water outlet channel communicating with the first water outlet; the water inlet component includes a water-passing shaft, a plug shaft, and a limiting component, the water-passing shaft is provided with a first plug portion and a second plug portion opposite to the first plug portion, the first plug portion extends in a direction parallel to the first axis and is provided with a water outlet channel communicating with the first water branch, the first plug portion is adapted to be inserted into the receiving groove in a first direction and communicate with the water outlet channel in a direction parallel to the first axis. The water passage is connected to the water outlet; the insertion shaft is adapted to pass through the water outlet in a direction parallel to the first axis and then be inserted into the second insertion part; the limiting member is adapted to be placed in the receiving groove in a first direction and connected to the insertion shaft or the water outlet; the limiting member has a first limiting surface and a second limiting surface perpendicular to the first axis and opposite to each other; the orientation of the first limiting surface is the same as the insertion direction of the insertion shaft; the first limiting surface and the second limiting surface are respectively adapted to abut against the insertion shaft and the water outlet.

[0012] Option 5, based on Option 4, provides a socket for the water outlet, and the insertion shaft is adapted to be rotatably inserted into the socket.

[0013] Option 6, based on Option 4, the limiting member is provided with an elastic buckle and a locking hole. The elastic buckle is adapted to deform when it abuts against the insert shaft to expand the locking hole, and to recover when the insert shaft enters the locking hole to shrink the locking hole.

[0014] Option 7, based on Option 1, involves limiting the rotating component relative to the main body along a first direction.

[0015] Option 8, based on Options 1 to 7, further includes a second water inlet and a second water outlet suitable for sequential water flow, the inlet end of the second water inlet being suitable for communication with the inlet, and the sealing part being suitable for sealing or opening the second water inlet.

[0016] Option 9, based on Option 7, the main body includes a housing, a locking component, and a fastener. The rotating component is hollow and abuts against the housing. The locking component is located inside the rotating component, and the side of the locking component facing the housing is adapted to abut against the rotating component. The fastener fixes the locking component and the housing.

[0017] Option 10, based on Option 2, involves installing the switching component on the water inlet component, rotating the component and the water inlet component being rotatably connected around an axis parallel to the first direction, the rotating component being hollow, and the water outlet component being located inside the rotating component and rotatably connected to the water inlet component around a first axis perpendicular to the first direction.

[0018] As can be seen from the above description of the present invention and its preferred embodiments, compared with the prior art, the technical solution of the present invention and its preferred embodiments have the following beneficial effects due to the adoption of the following technical means:

[0019] 1. In Scheme 1 and its preferred embodiments, a water outlet device includes a main body, a switching component, and a rotating component. The main body is provided with a water inlet, a first water distribution outlet, and a first water outlet suitable for sequential water flow;

[0020] The switching component has a force-receiving part, and the rotating component is rotatably connected to the main body about an axis parallel to the first direction. The rotating component has a force-applying part, one of which is a protrusion, and the other is a groove suitable for the protrusion to be inserted. At least one of the protrusion and the groove is spiral-shaped so that the inclined surfaces of the protrusion and the groove fit together, thereby making the force-applying part suitable for driving the force-receiving part to make the switching component slide relative to the main body along the first direction, so that the blocking part blocks or opens the first water outlet, realizing the switching function. This method does not require a reset part and can realize switching without closing the water circuit. At the same time, since the protrusion is inserted into the groove, the rotating component cannot directly disengage from the switching component along the first direction under normal circumstances, ensuring the stability of the assembly.

[0021] 2. In Scheme 2 and its preferred embodiments, the main body includes a water inlet and a water outlet. The water inlet is provided with a water inlet and a first water outlet, and the water outlet is provided with a first water outlet. The water outlet and the water inlet are rotatably connected around a first axis perpendicular to the first direction, so as to adjust the water outlet angle of the first water outlet as needed to increase the water outlet range and the comfort of use.

[0022] 3. In Scheme 3 and its preferred embodiments, a sealing ring is also included. The water outlet is provided with a rotating part, which extends in a direction parallel to the first axis and is rotatably connected to the water inlet so that the water outlet channel is connected to the first water outlet. The inner and outer rings of the sealing ring abut against the rotating part and the water inlet respectively. On the one hand, it can prevent water leakage at the joint. On the other hand, the friction provided by the sealing ring allows the water outlet to stop relative to the water inlet.

[0023] 4. In Scheme 4 and its preferred embodiments, the water outlet component is provided with a receiving groove and a water outlet channel communicating with the receiving groove, and the water outlet channel is connected to the first water outlet; the water inlet component includes a water-passing shaft, a plug shaft, and a limiting component. The water-passing shaft is provided with a first plug portion and a second plug portion opposite to the first plug portion. The first plug portion extends in a direction parallel to the first axis and is provided with a water-passing channel communicating with the first water outlet. The first plug portion is adapted to be inserted into the receiving groove in a first direction and inserted into the water outlet channel in a direction parallel to the first axis, so that the water-passing channel and the water outlet channel are connected, thereby realizing the rotational connection between the water-passing shaft and the water outlet channel and the water passage connection between the water inlet component and the water outlet component. Due to the above-mentioned assembly structure of the water-passing shaft and the water outlet component, the water-passing shaft may detach from the water outlet channel in the opposite direction to the insertion into the water outlet channel, resulting in detachment. In this design, the insert shaft is adapted to pass through the water outlet component in a direction parallel to the first axis and then be inserted into the second insertion part to achieve the installation of the insert shaft. At the same time, the limiting component is adapted to be placed into the receiving groove in the first direction and connected to the insert shaft or the water outlet component. The limiting component has a first limiting surface and a second limiting surface that are perpendicular to the first axis and opposite to each other. The orientation of the first limiting surface is the same as the insertion direction of the insert shaft. The first limiting surface and the second limiting surface are adapted to abut against the insert shaft and the water outlet component, respectively, thereby preventing the water outlet shaft from disengaging from the water outlet in the opposite direction to the insertion of the water outlet, ensuring stable assembly.

[0024] 5. In Scheme 5 and its preferred embodiments, the water outlet component is provided with a socket, and the insertion shaft is adapted to be rotatably inserted into the socket, so that the water outlet component cooperates with both the first insertion part and the insertion shaft, thereby increasing the stability of the rotation of the water outlet component.

[0025] 6. In Scheme 6 and its preferred embodiments, the limiting member is provided with an elastic buckle and a locking hole. The elastic buckle is adapted to deform when it abuts against the insert shaft so that the locking hole expands to facilitate the insertion shaft entering the locking hole, and returns to its original position when the insert shaft enters the locking hole so that the locking hole contracts, thereby preventing the insert shaft from easily separating from the locking hole.

[0026] 7. In Scheme 7 and its preferred embodiments, the rotating component abuts against the body in the first direction, preventing the rotating component from disengaging from the body in the first direction, and also having a certain positional limiting effect, reducing the shaking of the rotating component.

[0027] 8. In Scheme 8 and its preferred embodiments, the main body is further provided with a second water outlet and a second water inlet suitable for sequential water flow. The water inlet end of the second water outlet is suitable for communication with the water inlet, and the sealing part is also suitable for sealing or opening the second water outlet.

[0028] 9. In Scheme Nine and its preferred embodiments, the main body includes a shell, a clamp, and a fastener. The rotating part is hollow and is located in the shell. The clamp is located inside the rotating part. The clamp and the shell are arranged along a first direction. The side of the clamp facing the shell is adapted to abut against the rotating part, thereby limiting the rotating part along the first direction. The fastener fixes the clamp and the shell, thereby determining the relative position between the clamp and the shell and ensuring the stability of the limiting.

[0029] 10. In Scheme 10 and its preferred embodiment, the switching component is installed on the water inlet component, and the rotating component is rotatably connected to the water inlet component about an axis parallel to the first direction. The rotating component is hollow, and the water outlet component is located inside the rotating component and is rotatably connected to the water inlet component about a first axis perpendicular to the first direction, thereby protecting the water outlet component. Since the rotating component is rotatably connected to the water inlet component, and the switching component is installed on the water inlet component, and the water inlet component is fixed in position relative to the ground during use, the movement of the switching component and the rotating component will not affect the water outlet component, and will not cause the water outlet component to move, resulting in a change in the water outlet direction. Attached Figure Description

[0030] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the following description of the embodiments will be briefly introduced. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0031] Figure 1 This is a perspective view of the water outlet device in Example 1;

[0032] Figure 2 This is an exploded view of the water outlet device in Example 1;

[0033] Figure 3 This is an assembly diagram of the insert shaft, limiting component, and water-passing shaft in Embodiment 1;

[0034] Figure 4 This is a perspective view of the limiting component in Example 1;

[0035] Figure 5 This is a perspective view of the water outlet component in Example 1;

[0036] Figure 6 This is a schematic diagram of the water outlet device in Example 1;

[0037] Figure 7 This is a schematic diagram showing the connection between the inlet and the second branch outlet in Example 1.

[0038] Figure 8 This is a schematic diagram showing the connection between the inlet and the first branch outlet in Example 1.

[0039] Figure 9 This is a perspective view of the rotating component in Embodiment 1;

[0040] Figure 10 This is an exploded view of the rotating component and the switching component in Example 1;

[0041] Figure 11 This is a schematic diagram of the water outlet component facing upwards in Example 1;

[0042] Figure 12 This is a schematic diagram of the water outlet component facing downwards in Example 1;

[0043] Figure 13 This is an exploded view of the water inlet component in Example 1;

[0044] Explanation of key figure labels:

[0045] Body 10; Water inlet 1; Housing 11; Water inlet 111; First water outlet 112; Second water outlet 113; Second water outlet 114; Shower rod 115; Inner pipe 116; Connector 117; Inner pipe cover 118; Fixed bracket 119; Water shaft 12; First insertion part 121; Water passage 1211; Second insertion part 122; Insert shaft 13; Annular groove 131; Limiting part 14; Elastic buckle 141; Locking hole 142; First limiting surface 143; Second limiting surface 144; Locking piece 15; Fastener 16; Water outlet 2; First water outlet 21; Rotating part 22; Water passage 221; Receiving groove 23; Insertion hole 24; Switching part 20; Sealing part 201; Force receiving part 202; Rotating part 30; Force applying part 301; Sealing ring 40; First direction 50; First axis 60; Detailed Implementation

[0046] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are preferred embodiments of the present utility model and should not be considered as excluding other embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0047] Unless otherwise expressly defined, the use of terms such as "first," "second," or "third" in the claims, description, and drawings of this utility model is for distinguishing different objects and not for describing a specific order.

[0048] Unless otherwise expressly defined, in the claims, description, and accompanying drawings of this utility model, the use of directional terms such as "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," and "counterclockwise" to indicate orientation or positional relationships is based on the orientation and positional relationships shown in the accompanying drawings and is only for the convenience of describing the invention and simplifying the description, and is not intended to indicate or imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore should not be construed as limiting the specific scope of protection of the invention.

[0049] Unless otherwise expressly defined, the terms "fixed connection" or "fixed connection" used in the claims, description and drawings of this utility model shall be interpreted broadly to refer to any connection in which there is no displacement or relative rotation relationship between the two parties, including non-removable fixed connection, detachable fixed connection, integral connection and fixed connection through other devices or components.

[0050] In the claims, description and accompanying drawings of this utility model, the terms "comprising", "having", and variations thereof are used to mean "including but not limited to".

[0051] refer to Figures 1-12 A water outlet device includes a body 10, a switching component 20, a rotating component 30, and a sealing ring 40. This water outlet device can be a back spray unit, a back spray unit + shower rod, a shower head, etc. The following example uses a back spray unit + shower rod.

[0052] The main body 10 includes an inlet component 1 and an outlet component 2.

[0053] refer to Figure 6 , Figure 11 , Figure 12 The water outlet 2 is located inside the rotating member 30 and is rotatably connected to the water inlet 1 about a first axis 60 perpendicular to the first direction 50. The first direction 50 and the first axis 60 are shown in the illustration of this embodiment. Figure 6 . refer to Figure 1 The water outlet 2 is provided with a first water outlet 21, for reference. Figure 5 , Figure 6 The water outlet component 2 also includes a rotating part 22, which extends in a direction parallel to the first axis 60. The rotating part 22 has a water outlet channel 221 communicating with the first water outlet 21. The water outlet component 2 also includes a receiving groove 23 and a insertion hole 24. The receiving groove 23 opens along the first direction 50. In this embodiment... Figure 6The receiving groove 23 opens to the left. The side wall of the receiving groove 23 is connected to the water outlet 221. The insertion hole 24 extends in a direction parallel to the first axis 60 and penetrates the side wall of the receiving groove 23 away from the water outlet 221. The insertion hole 24 is a circular hole.

[0054] refer to Figures 2-4 The water inlet component 1 includes a housing 11, a water-passing shaft 12, a insertion shaft 13, a limiting component 14, a locking component 15, and a fastener 16, as shown in the reference. Figure 7 The housing 11 is provided with an inlet 111, a first branch inlet 112, a second branch inlet 113, and a second outlet 114. The first branch inlet 112 and the second branch inlet 113 are arranged at intervals along a first direction 50. The inlet end of the second branch inlet 113 is adapted to communicate with the inlet 111. The inlet 111, the second branch inlet 113, and the second outlet 114 are adapted to allow water to pass through sequentially. In this embodiment, this water path is a top spray outlet. The inlet 111, the first branch inlet 112, and the first outlet 111 are adapted to allow water to pass through sequentially. In this embodiment, this water path is a back spray outlet. Specifically, refer to... Figures 2-4 , Figure 13 The housing 11 comprises a shower rod 115 (all parts in the housing 11 except the shower rod 115 can be considered as part of the back spray component), an inner tube 116, a connector 117, an inner tube cover 118, and a fixing bracket 119 assembled together. The shower rod 115 has a water inlet 111 and a second water outlet 114. The inner tube 116 has a first water branch 112 and a second water branch 113. The inner tube 116 is inserted into and embedded in the shower rod 115 with the connector 117. The connector 117 is adapted to connect the second water branch 113 and the second water outlet 114. The inner tube cover 118 is used for installing the water shaft 12 and the switching component 20, and connects their water passages. The fixing bracket 119 is fitted onto the inner tube cover 118 and is used to close the openings on the shower rod 115 for installing the inner tube 116 and the connector 117.

[0055] refer to Figures 2-4 , Figure 6The water-passing shaft 12 is provided with a water-passing part, a first insertion part 121, and a second insertion part 122 opposite to the first insertion part 121. The water-passing part is perpendicular to the first insertion part 121 and is inserted into the housing 11 along the first direction 50 to achieve water passage communication. The first insertion part 121 extends along a direction parallel to the first axis 60 and is provided with a water passage 1211. The first insertion part 121 is adapted to be inserted into the receiving groove 23 (the size of the receiving groove 23 is larger than the size of the first insertion part 121) through the opening of the receiving groove 23 along the first direction 50. The first insertion part 121 is inserted into the water outlet 221 along a direction parallel to the first axis 60 so that the water passage 1211 and the water outlet 221 are connected, and the first insertion part 121 and the water outlet 221 are rotatably connected. In this embodiment, the first insertion part 121 is inserted into the water outlet 221. In other embodiments, the rotating part 22 may be inserted into the water passage 1211.

[0056] The insertion shaft 13 passes through the water outlet 2 in a direction parallel to the first axis 60 and then engages with the second insertion portion 122. Specifically, in this embodiment, the insertion shaft 13 is adapted to be rotatably inserted into the insertion hole 24. The insertion shaft 13 is adapted to be inserted into the insertion hole 24 from the outside of the water outlet 2 and then enters the receiving groove 23 to engage with the second insertion portion 122. The insertion shaft 13 supports the water outlet 2 by supporting the hole wall of the insertion hole 24. Preferably, the size of the insertion shaft 13 and the size of the insertion hole 24 are matched to achieve rotatable connection and support. The insertion shaft 13 is also provided with an annular groove 131, which opens in a direction away from the first axis 60. In this embodiment, the second insertion portion 122 is in the form of a groove, and the insertion shaft 13 is a protrusion to achieve insertion. In other embodiments, the second insertion portion 122 may also be a corresponding protrusion, and the insertion shaft 13 may be a groove to achieve insertion.

[0057] refer to Figure 4 , Figure 6The limiting member 14 is adapted to be inserted into the receiving groove 23 from the opening of the receiving groove 23 along the first direction 50, and connected to the insert shaft 13 or the water outlet 2 to realize the installation of the limiting member 14. In this embodiment, the limiting member 14 is connected to the insert shaft 13. The limiting member 14 is generally U-shaped. The limiting member 14 is provided with an elastic buckle 141 and a locking hole 142. There is at least one elastic buckle 141. In this embodiment, there are two elastic buckles 141, which are spaced apart. There is a locking hole 142 between the two elastic buckles 141. The elastic buckle 141 is adapted to abut against the annular groove 131 of the insert shaft 13, so that the elastic buckle 141 deforms through the inclined surface engagement, and the two elastic buckles 141 expand outward, causing the locking hole 142 to expand, allowing part of the annular groove 131 of the insert shaft 13 to enter the locking hole 142. When the insert shaft 13 enters the locking hole 142, the elastic buckle 141 disengages from the insert shaft 13 and the elastic buckle 141 returns to its original position, so that the locking hole 142 contracts, thereby preventing the insert shaft 13 from easily coming out of the locking hole 142. The limiting member 14 is provided with a first limiting surface 143 and a second limiting surface 144 that are perpendicular to the first axis 60 and opposite to each other. The orientation of the first limiting surface 143 is the same as the insertion direction of the insert shaft 13 (i.e. the direction in which the insert shaft 13 is inserted into the insertion hole 24). The first limiting surface 143 abuts against the groove wall of the annular groove 131 of the insert shaft 13, and the second limiting surface 144 abuts against the groove wall of the receiving groove 23 of the water outlet member 2 to prevent the insert shaft 13 from disengaging from the water outlet member 2.

[0058] refer to Figure 6 The clip 15 is fitted onto the water-passing shaft 12 and is fixed to the housing 11 by fasteners 16. Fasteners 16 can be screws.

[0059] refer to Figure 6 The inner and outer rings of the sealing ring 40 abut against the rotating part 22 and the water inlet 1, respectively. In this embodiment, the sealing ring 40 is sleeved on the first insertion part 121, and the outer ring abuts against the water outlet 221.

[0060] refer to Figure 7 , Figure 8 and Figure 10 The switching element 20 is partially located within the water passage of the main body 10, and this part is provided with a sealing part 201. Part of it is located outside the water passage of the main body 10, and this part is provided with a force-bearing part 202. The switching element 20 is installed on the water inlet 1. The switching element 20 is adapted to slide along the first direction 50 with the main body 10 under the drive of the rotating element 30, so that the sealing part 201 blocks or opens the first water outlet 112, or blocks or opens the second water outlet 113. In this embodiment, there can be modes where only the first water outlet 112 passes through, only the second water outlet 113 passes through, and both the first and second water outlets 112 and 113 pass through simultaneously. The sealing part 201 can block the first water outlet 112 or the second water outlet 113 through the sealing element of the switching element 20, which will not be described in detail here.

[0061] refer to Figure 9 , Figure 10 The rotating member 30 is rotatably connected to the body 10 about an axis parallel to the first direction 50. The rotating member 30 is provided with a force-applying part 301, which is adapted to drive the force-receiving part 202 to make the switching member 20 slide. One of the force-applying part 301 and the force-receiving part 202 is a protrusion, and the other is a groove adapted for the protrusion to be inserted. The protrusion and the groove are inclined surfaces that cooperate, so that the rotational energy of the rotating member 30 is converted into the movement of the switching member 20. In this embodiment, the force-applying part 301 is a protrusion, and the force-receiving part 202 is a groove. At least one of the protrusion and the groove is helical, that is, it has a curved surface or multiple inclined surfaces surrounding the rotation axis of the rotating member 30. The rotating member 30 abuts against the body 10 along the first direction 50, so that the rotating member 30 cannot disengage from the body 10 along the first direction 50, and has a certain position limiting function. In this embodiment, the rotating member 30 is hollow. The rotating member 30 is sleeved outside the water-passing shaft 12 and abuts against the housing 11. The clamping member 15 is located inside the rotating member 30 and is fixed to the housing 11 by the fastener 16. The side of the clamping member 15 facing the housing 11 is adapted to abut against the rotating member 30, thereby realizing the limiting of the rotating member 30.

[0062] In use, taking the forward rotation of the rotating member 30 as an example, the sealing part 201 of the switching member 20 moves closer to the first water outlet 112. By rotating the rotating member 30 in the forward direction, the protrusion (force-applying part 301) on the rotating member 30 engages with the inclined surface of the groove wall (force-receiving part 202) of the switching member 20. During the rotation of the rotating member 30, the protrusion applies force to the right side wall of the groove, so that the switching member 20 slides under the drive of the protrusion, so that the sealing part 201 seals the first water outlet 112. At this time, the sealing part 201 opens the second water outlet 113, and water flows out of the inlet 111, the second water outlet 113, and the second outlet 114 in sequence. When the rotating component 30 is rotated in the opposite direction, the protrusion on the rotating component 30 engages with the inclined surface of the groove wall of the switching component 20. During the rotation of the rotating component 30, the protrusion applies force to the left side wall of the groove, so that the switching component 20 slides under the action of the protrusion, causing the sealing part 201 to block the second water outlet 113. At this time, the sealing part 201 opens the first water outlet 112, and water flows out of the inlet 111, the first water outlet 112, and the first water outlet 21 in sequence. When it is necessary to change the water outlet angle of the first water outlet 21, the water outlet component 2 is pressed, causing the water outlet component 2 to rotate relative to the inlet component 1 around the first axis 60. The water outlet component 2 can swing up or down, so that the first water outlet 21 can flow out water at an angle upward or downward.

[0063] Compared with the prior art, this embodiment has the following beneficial effects:

[0064] In one exemplary embodiment, a water outlet device includes a body 10, a switching component 20, and a rotating component 30. The body 10 is provided with an inlet 111, a first water distribution port 112, and a first water outlet 21 adapted for sequential water flow.

[0065] The switching component 20 is provided with a force-receiving part 202. The rotating component 30 is rotatably connected to the main body 10 about an axis parallel to the first direction 50. The rotating component 30 is provided with a force-applying part 301. One of the force-applying part 301 and the force-receiving part 202 is a protrusion, and the other is a groove suitable for the protrusion to be inserted. At least one of the protrusion and the groove is spiral-shaped so that the inclined surfaces of the protrusion and the groove cooperate, thereby making the force-applying part 301 suitable for driving the force-receiving part 202 to make the switching component 20 slide relative to the main body 10 along the first direction 50, so that the sealing part 201 blocks or opens the first water outlet 112, realizing the switching function. This method does not require a reset part and can realize switching without closing the water circuit. At the same time, since the protrusion is inserted into the groove, the rotating component 30 cannot directly disengage from the switching component 20 along the first direction 50 under normal circumstances, ensuring the stability of the assembly.

[0066] In one exemplary embodiment, the main body 10 includes a water inlet 1 and a water outlet 2. The water inlet 1 is provided with a water inlet 111 and a first water outlet 112, and the water outlet 2 is provided with a first water outlet 21. The water outlet 2 and the water inlet 1 are rotatably connected about a first axis 60 perpendicular to the first direction 50, so as to adjust the water outlet angle of the first water outlet 21 as needed to increase the water outlet range and the comfort of use.

[0067] In one exemplary embodiment, a sealing ring 40 is also included. The water outlet 2 is provided with a rotating part 22, which extends in a direction parallel to the first axis 60 and is rotatably connected to the water inlet 1 so that the water outlet 221 communicates with the first water outlet 112. The inner and outer rings of the sealing ring 40 abut against the rotating part 22 and the water inlet 1, respectively. On the one hand, it can prevent water leakage at the joint. On the other hand, the friction provided by the sealing ring 40 allows the water outlet 2 to stop relative to the water inlet 1.

[0068] In one exemplary embodiment, the water outlet component 2 is provided with a receiving groove 23 and a water outlet channel 221 communicating with the receiving groove 23. The water outlet channel 221 is connected to the first water outlet 21. The water inlet component 1 includes a water-passing shaft 12, a plug shaft 13 and a limiting component 14. The water-passing shaft 12 is provided with a first plug portion 121 and a second plug portion 122 opposite to the first plug portion 121. The first plug portion 121 extends in a direction parallel to the first axis 60 and is provided with a water-passing channel 1211 communicating with the first water outlet 112. The first plug portion 121 is adapted to be inserted into the receiving groove 23 in a first direction 50 and inserted into the water outlet channel 221 in a direction parallel to the first axis 60, so that the water-passing channel 1211 is connected to the water outlet channel 221, thereby realizing the rotational connection between the water-passing shaft 12 and the water outlet channel 221 and the water passage connection between the water inlet component 1 and the water outlet component 2.

[0069] Due to the assembly structure of the water-passing shaft 12 and the water outlet component 2, the water-passing shaft 12 may detach from the water outlet 221 in the opposite direction to the insertion of the water outlet 221, resulting in detachment. In this solution, the insertion shaft 13 is adapted to penetrate the water outlet component 2 in a direction parallel to the first axis 60 and then be inserted into the second insertion part 122 to realize the installation of the insertion shaft 13. At the same time, the limiting member 14 is adapted to be placed into the receiving groove 23 in the first direction 50 and connected to the insertion shaft 13 or the water outlet component 2. The limiting member 14 is provided with a first limiting surface 143 and a second limiting surface 144 that are perpendicular to the first axis 60 and opposite to each other. The orientation of the first limiting surface 143 is the same as the insertion direction of the insertion shaft 13. The first limiting surface 143 and the second limiting surface 144 are respectively adapted to abut against the insertion shaft 13 and the water outlet component 2, thereby preventing the water-passing shaft 12 from detaching from the water outlet 221 in the opposite direction to the insertion of the water outlet 221 and ensuring assembly stability.

[0070] In one exemplary embodiment, the water outlet 2 is provided with a socket 24, and the insertion shaft 13 is adapted to be inserted into the socket 24 so that the water outlet 2 cooperates with both the first insertion part 121 and the insertion shaft 13, thereby increasing the stability of the rotation of the water outlet 2.

[0071] In one exemplary embodiment, the limiting member 14 is provided with an elastic buckle 141 and a locking hole 142. The elastic buckle 141 is adapted to deform when it abuts against the insert shaft 13, so that the locking hole 142 expands to facilitate the insertion shaft 13 to enter the locking hole 142, and recovers when the insertion shaft 13 enters the locking hole 142, so that the locking hole 142 contracts, thereby preventing the insertion shaft 13 from easily separating from the locking hole 142.

[0072] In one exemplary embodiment, the rotating member 30 abuts against the body 10 along the first direction 50, preventing the rotating member 30 from disengaging from the body 10 along the first direction 50, and has a certain position limiting effect, reducing the shaking of the rotating member 30.

[0073] In one exemplary embodiment, the body 10 is further provided with a second water outlet 113 and a second water outlet 114 adapted to allow water to pass through in sequence. The water inlet end of the second water outlet 113 is adapted to communicate with the water inlet 111, and the blocking part 201 is also adapted to block or open the second water outlet 113.

[0074] In one exemplary embodiment, the body 10 includes a housing 11, a locking member 15, and a fastener 16. The rotating member 30 is hollow and abuts against the housing 11. The locking member is located inside the rotating member 30. The locking member 15 and the housing 11 are arranged along a first direction 50. The side of the locking member 15 facing the housing 11 is adapted to abut against the rotating member 30, thereby limiting the rotation member 30 along the first direction 50. The fastener 16 fixes the locking member 15 and the housing 11, thereby determining the relative position between the locking member 15 and the housing 11 and ensuring the stability of the limiting.

[0075] In one exemplary embodiment, the switching component 20 is installed on the water inlet component 1, and the rotating component 30 is rotatably connected to the water inlet component 1 about an axis parallel to the first direction 50. The rotating component 30 is hollow, and the water outlet component 2 is located inside the rotating component 30 and is rotatably connected to the water inlet component 1 about a first axis 60 perpendicular to the first direction 50, thereby protecting the water outlet component 2. Since the rotating component 30 is rotatably connected to the water inlet component 1, and the switching component 20 is installed on the water inlet component 1, and the water inlet component 1 is fixed in position relative to the ground during use, the movement of the switching component 20 and the rotating component 30 will not affect the water outlet component 2, and will not cause the water outlet component 2 to move, resulting in a change in the water outlet direction.

[0076] The foregoing description of the specifications and embodiments is intended to explain the scope of protection of this utility model, but does not constitute a limitation on the scope of protection of this utility model. Modifications, equivalent substitutions, or other improvements to the embodiments of this utility model or a portion thereof that can be obtained by those skilled in the art through logical analysis, reasoning, or limited experimentation, based on the teachings of this utility model or the foregoing embodiments, should all be included within the scope of protection of this utility model.

Claims

1. A water outlet device, characterized in that: include The main body (10) is provided with an inlet (111), a first branch inlet (112) and a first outlet (21) suitable for water to pass through in sequence; The switching component (20) is provided with a blocking part (201) and a force-bearing part (202). The switching component (20) is adapted to slide in connection with the body (10) along a first direction (50) so that the blocking part (201) blocks or opens the first water outlet (112). A rotating member (30) is rotatably connected to the body (10) about an axis parallel to the first direction (50). It is provided with a force-applying part (301), which is adapted to drive the force-receiving part (202) to make the switching member (20) slide. One of the force-applying part (301) and the force-receiving part (202) is a protrusion, and the other is a groove adapted for the protrusion to be inserted. At least one of the protrusion and the groove is spiral-shaped so that the protrusion and the groove are engaged with the inclined surfaces.

2. The water outlet device as described in claim 1, characterized in that: The main body (10) includes a water inlet (1) and a water outlet (2). The water inlet (1) is provided with the water inlet (111) and the first water outlet (112). The water outlet (2) is provided with the first water outlet (21). The water outlet (2) and the water inlet (1) are rotatably connected around a first axis (60) perpendicular to the first direction (50).

3. The water outlet device as described in claim 2, characterized in that: It also includes a sealing ring (40), the water outlet (2) is provided with a rotating part (22), the rotating part (22) is provided with a water outlet channel (221), the water outlet channel (221) is connected to the first water outlet (21); the rotating part (22) extends in a direction parallel to the first axis (60), and is rotatably connected to the water inlet (1) and the water outlet channel (221) is connected to the first water distribution port (112), the inner and outer rings of the sealing ring (40) abut against the rotating part (22) and the water inlet (1) respectively.

4. A water outlet device as described in claim 2, characterized in that: The water outlet component (2) is provided with a receiving groove (23) and a water outlet channel (221) communicating with the receiving groove (23), and the water outlet channel (221) is connected to the first water outlet (21); the water inlet component (1) includes a water-passing shaft (12), a plug shaft (13), and a limiting component (14), the water-passing shaft (12) is provided with a first plug-in portion (121) and a second plug-in portion (122) facing away from the first plug-in portion (121), the first... A plug-in portion (121) extends in a direction parallel to the first axis (60) and is provided with a water passage (1211) communicating with the first water outlet (112). The first plug-in portion (121) is adapted to be inserted into the receiving groove (23) in a first direction (50) and plugged into the water outlet (221) in a direction parallel to the first axis (60) so that the water passage (1211) communicates with the water outlet (221). The insertion shaft (13) is adapted to pass through the water outlet (2) in a direction parallel to the first axis (60) and then be inserted into the second insertion part (122); The limiting member (14) is adapted to be inserted into the receiving groove (23) along the first direction (50) and connected to the insertion shaft (13) or the water outlet (2). The limiting member (14) is provided with a first limiting surface (143) and a second limiting surface (144) perpendicular to the first axis (60) and opposite to each other. The orientation of the first limiting surface (143) is the same as the insertion direction of the insertion shaft (13). The first limiting surface (143) and the second limiting surface (144) are adapted to abut against the insertion shaft (13) and the water outlet (2), respectively.

5. A water outlet device as described in claim 4, characterized in that: The water outlet (2) is provided with a socket (24), and the insertion shaft (13) is adapted to be rotatably inserted into the socket (24).

6. A water outlet device as described in claim 4, characterized in that: The limiting member (14) is provided with an elastic buckle (141) and a locking hole (142). The elastic buckle (141) is adapted to deform when it abuts against the insert shaft (13) so that the locking hole (142) expands, and to recover when the insert shaft (13) enters the locking hole (142) so that the locking hole (142) contracts.

7. A water outlet device as described in claim 1, characterized in that: The rotating component (30) is positioned relative to the body (10) along the first direction (50).

8. A water outlet device as described in any one of claims 1-7, characterized in that: The main body (10) is also provided with a second water outlet (113) and a second water outlet (114) suitable for water to pass through in sequence. The water inlet end of the second water outlet (113) is suitable for communicating with the water inlet (111). The sealing part (201) is also suitable for sealing or opening the second water outlet (113).

9. A water outlet device as described in claim 7, characterized in that: The main body (10) includes a housing (11), a locking member (15), and a fastener (16). The rotating member (30) is hollow and abuts against the housing (11). The locking member (15) is located inside the rotating member (30). The side of the locking member (15) facing the housing (11) is adapted to abut against the rotating member (30). The fastener (16) fixes the locking member (15) and the housing (11).

10. A water outlet device as described in claim 2, characterized in that: The switching component (20) is installed on the water inlet component (1). The rotating component (30) is rotatably connected to the water inlet component (1) about an axis parallel to the first direction (50). The rotating component (30) is hollow. The water outlet component (2) is located inside the rotating component (30) and is rotatably connected to the water inlet component (1) about a first axis (60) perpendicular to the first direction (50).

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