CN113262891A - Sprinkler and shower assembly capable of swinging spray - Google Patents

Abstract

The embodiment of the application provides a but gondola water faucet and shower subassembly of wobbling splash relates to shower product technical field. The sprinkler capable of swinging spray comprises a sprinkler body, a transmission mechanism and a swinging assembly. The shower head main body comprises a water inlet body and a water outlet cover, the water inlet body comprises a water inlet pipe, a containing cavity and an inclined hole communicated with the water inlet pipe and the containing cavity, and the water outlet cover is provided with a through hole. The transmission mechanism is arranged in the accommodating cavity and comprises an output piece with an eccentric wheel structure, and the transmission mechanism can drive under the drive of fluid flowing through the inclined hole so as to drive the output piece to rotate. The swing assembly is in transmission connection with the eccentric wheel structure of the output piece and comprises a water outlet piece, the water outlet piece is embedded in the through hole and can swing in the through hole under the driving of the eccentric wheel structure. The shower assembly comprises a shower pipe and a shower head, and the shower head is connected to the water outlet end of the shower pipe. The shower head can spray linear swinging massage water spray to provide massage experience for users so as to meet the comfort requirement of people.

Description

Sprinkler and shower assembly capable of swinging spray

Technical Field

The application belongs to the technical field of shower products, more specifically relates to a but gondola water faucet and shower subassembly of wobbling splash.

Background

The shower head is mostly of a structure with a fixed water outlet angle, and the fixed water outlet angle enables the water outlet range of the shower head to be limited. In order to improve the selection diversity of the user when showering, various swinging type water bloom structures are gradually derived, such as: a shower water mode, a spray water mode, a granular water mode, a waterfall water mode, etc.

The swinging type splash is switched in a splash mode through a splash switching structure. However, the current water bloom switching structure usually switches the water flow channels, and different water flow channels can flow different water bloom patterns.

How to design the shower head enables water flowing through the same water flow channel to spray water spray in a swinging mode.

Disclosure of Invention

Objects of the present application include, for example, providing a showerhead and shower assembly that can oscillate a spray to ameliorate at least some of the above problems.

The embodiment of the application can be realized as follows:

in a first aspect, a shower head capable of swinging spray is provided, which comprises a shower head main body, a transmission mechanism and a swinging assembly. The shower head main body comprises a water inlet body and a water outlet cover, the water inlet body comprises a water inlet pipe, a containing cavity and an inclined hole communicated with the water inlet pipe and the containing cavity, and the water outlet cover is provided with a through hole. The transmission mechanism is arranged in the accommodating cavity and comprises an output piece with an eccentric wheel structure, and the transmission mechanism can drive under the drive of fluid flowing through the inclined hole so as to drive the output piece to rotate. The swing assembly is in transmission connection with the eccentric wheel structure of the output piece and comprises a water outlet piece, the water outlet piece is embedded in the through hole and can swing in the through hole under the driving of the eccentric wheel structure.

Furthermore, go out the water cover and still seted up the direction spout, the swing subassembly still includes the push-and-pull piece, and the push-and-pull piece includes fixed connection's push-and-pull body and branch, and the mating holes of being connected with the transmission of eccentric wheel structure is seted up to the push-and-pull body, and branch includes guide block and joint portion, and guide block slidable inlays locates the direction spout, goes out water spare and is connected with joint portion to it swings under the effect of push-and-pull piece to make a water spare.

Further, the matching hole of push-and-pull body is rectangular hole, and rectangular hole includes the medial surface, and the eccentric wheel structure is the cylinder and including being used for with medial surface assorted excircle face, has eccentric distance between the central axis of excircle face and the central axis of output spare.

Furthermore, the clamping portion is provided with a clamping groove, the water outlet piece comprises a water outlet nozzle and a connecting rod connected between the water outlet nozzles, the connecting rod is clamped in the clamping groove, and the water outlet nozzle is embedded in the through hole.

Further, the swing subassembly still includes the support, and support fixed connection is in the holding chamber, and the support is seted up with the swing groove of push-and-pull piece looks adaptation, and the support still includes the direction cambered surface with play water spare looks adaptation, and the push-and-pull piece is connected in the eccentric wheel structure of output piece, and inlays and locate the swing inslot to make the eccentric wheel structure drive push-and-pull piece swing in the swing inslot, the push-and-pull piece drives out water spare and swings along the direction cambered surface.

Further, drive mechanism includes pivot, impeller and gear drive subassembly, and impeller, gear drive subassembly and output piece are worn to locate in proper order in the pivot, and the impeller includes fixed connection's blade and action wheel, and the action wheel is connected with the gear drive subassembly transmission, and drives output piece and revolve the rotation of axes through the gear drive subassembly.

Further, gear drive assembly includes internal gear and planet wheel, and the center and the planet wheel meshing of internal gear are worn to locate by the action wheel, and simultaneously, planet wheel and internal gear meshing transmission, planet wheel and output member rotatable coupling.

Further, output still includes the axis of rotation that extends towards the one side that deviates from the eccentric wheel structure, and the distance between axis of rotation and the pivot equals the distance between the center of planet wheel and the center of action wheel, and the axis of rotation wears to locate the centre bore of planet wheel and with planet wheel rotatable coupling.

Furthermore, the quantity of planet wheel is a plurality of, and a plurality of planet wheels mesh the transmission with action wheel and internal gear simultaneously, and the quantity of axis of rotation is a plurality of, and axis of rotation and planet wheel one-to-one are connected.

In a second aspect, a shower assembly is provided that includes a shower tube and a showerhead coupled to an outlet end of the shower tube.

The shower head provided by the embodiment of the application can spray linear swinging spray. Through set up the inclined hole that communicates inlet tube and holding chamber on the body of intaking to produce the impact force behind the inclined hole through rivers, can drive mechanism as the power supply and carry out the transmission. An output piece in the transmission mechanism is in transmission connection with the swing assembly, and the water outlet piece can be driven to swing in the through hole of the water outlet cover through an eccentric wheel structure of the output piece.

When the water outlet member swings in the through hole, linear swing spray can be intermittently sprayed, so that a swing massage effect can be provided for a user. The linear swinging water bloom has the function of simulating human massage, and is favorable for meeting the comfort requirement of a user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a sprinkler capable of swinging water spray according to an embodiment of the present application;

fig. 2 is an exploded schematic view of a showerhead provided in an embodiment of the present application;

fig. 3 is a cross-sectional view of a water inlet body in a showerhead provided in an embodiment of the present application;

fig. 4 is a schematic structural view of a water outlet cover in the shower head provided by the embodiment of the present application;

FIG. 5 is a schematic structural diagram of an impeller in a showerhead provided by an embodiment of the present application;

FIG. 6 is a schematic structural view of an output member in the showerhead provided in an embodiment of the present application;

fig. 7 is a schematic structural view of a push-pull rod in the shower head according to the embodiment of the present disclosure;

fig. 8 is a schematic structural view of a water outlet member in the shower head provided by the embodiment of the present application;

fig. 9 is a schematic structural view of a bracket in a showerhead provided by an embodiment of the present application;

FIG. 10 is a cross-sectional view of a first perspective of a showerhead provided in embodiments of the present application;

fig. 11 is a cross-sectional view of a second viewing angle of the showerhead provided in an embodiment of the present application.

Icon: 100-a shower head; 110-a shower body; 111-a water inlet body; 1110-water inlet pipe; 1112-a receiving cavity; 1114-inclined holes; 116-water outlet cover; 1160-through holes; 1162-a guide chute; 120-a transmission mechanism; 121-a rotating shaft; 123-impeller; 1230-leaf blade; 1232-a capstan; 125-a gear assembly; 1250-internal gear; 1252-planetary gear; 127-an output; 1270-eccentric wheel configuration; 1272-outer circular surface; 1275-rotating shaft; 129-a gland; 130-a swing assembly; 131-a support; 1310-a wobble groove; 1312-guiding arc; 133-a push-pull member; 1330-push-pull body; 1332-medial side; 1334-struts; 1336-a guide block; 1338-a clip portion; 135-water outlet member; 1350-connecting rods; 1352-water outlet; 1353-embedding part; 1355-water outlet part.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

It should be noted that the features of the embodiments of the present application may be combined with each other without conflict.

Along with the improvement of living standard, people also have higher and higher requirements on living comfort. In order to experience the massage effect during bathing, people can design the shower head into a swing type structure so as to realize various selection modes. For example: shower water mode, spraying water mode, granule water mode, waterfall water mode etc. through the splash and the water pressure size of different modes, make people can obtain different shower experience according to the demand to promote user's travelling comfort.

However, the existing swing type structure switches modes through a spray switching structure, and the swing type spray mainly adopts a single-hole rotation type, which results in insufficient massage effect experienced by a user.

In view of the above problem, referring to fig. 1, an embodiment of the present invention provides a shower head 100 capable of swinging spray.

Referring to fig. 2, an exploded view of the showerhead 100 is shown.

Specifically, the showerhead 100 may include a showerhead body 110, a transmission mechanism 120, and a swing assembly 130. The shower body 110 has a water inlet pipe and a receiving chamber (not shown), the transmission mechanism 120 and the swinging assembly 130 are respectively installed in the receiving chamber, and the transmission mechanism 120 is in transmission connection with the swinging assembly 130. When entering the accommodating cavity from the water inlet pipe, water flow impacts the transmission mechanism 120, and can provide driving force for the transmission mechanism 120. Then, the swing assembly 130 can swing in the through hole 1160 of the shower main body 110 by the driving of the transmission mechanism 120, thereby spraying the linear swing type spray.

The shower head body 110 may include a water inlet body 111 and a water outlet cover 116, and the water outlet cover 116 is fastened to the water inlet body 111 to form a relatively closed accommodating space, so that the transmission mechanism 120 and the swing assembly 130 may be embedded in the accommodating space and can transmit in the accommodating space.

Referring to fig. 3, a cross-sectional view of the water inlet body 111 is shown.

The water inlet body 111 has a hollow structure, and may include a water inlet pipe 1110, an accommodating cavity 1112, and an inclined hole 1114 communicating the water inlet pipe 1110 and the accommodating cavity 1112. The water flow from the inlet pipe 1110 enters the receiving cavity 1112 through the inclined hole 1114, and the water flow is inclined to enter the receiving cavity 1112, so that the inclined impact force can be generated.

Referring to fig. 4, a schematic structural view of the water outlet cover 116 is shown.

The outlet cover 116 is fastened to the accommodating cavity 1112 of the inlet body 111, the outlet cover 116 is provided with a through hole 1160, the inner side of the outlet cover 116 close to the inlet body 111 is provided with a guide chute 1162, and the guide chute 1162 is used for being matched with the swing component 130, so that not only can a guiding function be provided for the swing component 130, but also the swing position of the swing component 130 can be limited.

Optionally, the water inlet body 111 is provided with a plurality of inclined holes 1114, and the plurality of inclined holes 1114 are provided at regular intervals around the central axis. When the shower head 100 is installed, water flows in from the water inlet pipe 1110 and then enters the accommodating cavity 1112 through the inclined hole 1114, a plurality of water flows which are obliquely sprayed around the central axis can be formed, and when all the water flows impact the transmission mechanism 120, the transmission mechanism 120 can be driven to rotate as a power source. The number of the through holes 1160 formed on the outlet cover 116 may be multiple, the through holes 1160 are uniformly spaced, and the through holes 1160 may be distributed on both sides of the guide chute 1162.

Wherein, the inner side of the outlet cover 116 close to the inlet body 111 is provided with an embedding protrusion corresponding to the through hole 1160, and the inner side wall of the embedding protrusion can be provided with a spherical hole, so that the outlet nozzle 1352 can swing in the spherical hole after the assembly of the outlet nozzle 1352 and the outlet cover 116 is completed.

With continued reference to fig. 2, the transmission mechanism 120 is installed in the accommodating cavity 1112 and includes an output member 127 having an eccentric wheel structure. The water flowing through the inclined hole 1114 can be used as a power source to drive the transmission mechanism 120 to rotate, and further drive the output member 127 to rotate around the rotating shaft 121.

Specifically, the transmission mechanism 120 may further include a rotating shaft 121, an impeller 123, and a gear assembly 125. The shaft 121 is used as a central shaft and is inserted into the transmission mechanism 120 and the swing assembly 130. Optionally, when the rotating shaft 121 is connected to the transmission mechanism 120, the rotating shaft 121 sequentially passes through the impeller 123, the gear transmission assembly 125 and the output member 127. The impeller 123 rotates around the rotating shaft 121 under the impact of water flow, is in transmission connection with the gear transmission assembly 125 while rotating, and drives the output member 127 to rotate around the rotating shaft 121 through the gear transmission assembly 125.

Referring to fig. 5, a schematic structural diagram of the impeller 123 is shown.

The impeller 123 may include fixedly connected blades 1230 and a driving wheel 1232, the blades 1230 are close to the inclined hole 1114 of the water inlet body 111 with respect to the driving wheel 1232, and the outer circumferential wall of the driving wheel 1232 is provided with teeth. The driving wheel 1232 is in transmission connection with the gear assembly 125, and drives the output member 127 to rotate around the rotating shaft 121 through the gear assembly 125.

With continued reference to fig. 2, the gear assembly 125 may include an inner gear 1250 and planet gears 1252. The inner gear 1250 is a fixed gear, and may be fixedly connected with respect to the shower main body 110. The driving wheel 1232 is arranged in the center of the inner gear 1250 in a penetrating way and meshed with the planet wheel 1252, and meanwhile, the planet wheel 1252 is meshed with the inner gear 1250 for transmission. The planet 1252 is rotatably coupled to the output member 127 such that the output member 127 can rotate with the planet 1252 about the axis of rotation 121.

It can be understood that when the driving wheel 1232 rotates around the rotating shaft 121, the planetary wheel 1252 is driven to revolve along the inner gear 1250 while rotating, so that the output rotating speed of the gear transmission assembly 125 can be reduced, and the output member 127 can be driven to rotate eccentrically through the planetary wheel 1252.

Referring to fig. 6, a structural diagram of the output element 127 is shown.

The output member 127 may include an eccentric structure 1270 and a rotating shaft 1275, wherein the output member 127 is axially centered and the rotating shaft 121 is disposed through the center hole of the output member 127. The rotation shaft 1275 extends toward a side facing away from the eccentric wheel structure 1270, and the rotation shaft 1275 is disposed in parallel with the rotation shaft 121.

After installation, the distance between the rotation shaft 1275 and the rotation shaft 121 is equal to the distance between the center of the planetary gear 1252 and the center of the driving wheel 1232, so that the rotation shaft 1275 is inserted through the center hole of the planetary gear 1252 and is rotatably connected with the planetary gear 1252.

To reduce the cogging of the output member 127 as it rotates with the planet 1252. Optionally, a bearing may be disposed at the central hole of the planetary gear 1252, so that the rotation shaft 1275 and the planetary gear 1252 are rotatably connected by the bearing.

The eccentric structure 1270 of the output member 127 may be cylindrical, the eccentric structure 1270 including an outer circular surface 1272 such that the central axis of the eccentric structure 1270 is eccentrically spaced from the shaft 121. It should be noted that the position of the rotating shaft 121 is the central axis position of the output member 127. When gear assembly 125 rotates output member 127 about shaft 121, eccentric structure 1270 of output member 127 moves eccentrically relative to shaft 121.

Alternatively, the number of the planetary gears 1252 in the transmission mechanism 120 may be multiple, and multiple planetary gears 1252 can be meshed with the driving wheel 1232 and the internal gear 1250 at the same time for transmission. For example, the number of the planetary gears 1252 may be three, three planetary gears 1252 are disposed between the internal gear 1250 and the driving wheel 1232 at regular intervals, and the driving wheel 1232 drives the three planetary gears 1252 to rotate and revolve simultaneously.

The number of the rotational shafts 1275 may be plural corresponding to the planetary gear 1252. For example, the number of the rotating shafts 1275 is the same as the number of the planetary wheels 1252, and the rotating shafts 1275 are connected to the planetary wheels 1252 in a one-to-one correspondence.

Further, as shown in fig. 2, the shower head 100 provided in the embodiment of the present application may further include a gland 129. The gland 129 may be snap-fit with the inner gear 1250 to fixedly connect the drive wheel 1232, the planet gears 1252 and the output member 127 as an integral structure.

With continued reference to fig. 2, the swing assembly 130 is drivingly connected to the eccentric structure 1270 of the output member 127, and the swing assembly 130 may include the water outlet member 135. During installation, the water outlet member 135 is embedded in the through hole 1160 formed in the water outlet cover 116, and the water outlet member 135 can swing in the through hole 1160 of the water outlet cover 116 by driving of the eccentric wheel structure 1270, so that the spraying swing type spray is realized.

Specifically, the swing assembly 130 may include a push-pull member 133 and a water outlet member 135. Push-pull element 133 is cooperatively coupled to eccentric structure 1270 of output element 127 such that eccentric structure 1270 of output element 127 causes push-pull element 133 to oscillate.

Referring to fig. 7, a schematic structural diagram of the push-pull member 133 is shown.

The push-pull member 133 may include a push-pull body 1330 and a rod 1334 fixedly connected, the rod 1334 being located on both sides of the push-pull body 1330. The push-pull body 1330 is used for being matched and connected with the eccentric wheel structure 1270, and the push-pull body 1330 is driven to swing through the eccentric wheel structure 1270. The rod 1334 may include a guide block 1336 and a clamping portion 1338, and after being installed, the guide block 1336 is slidably inserted into a guide chute 1162 formed on the inner side of the outlet cover 116, and the guide chute 1162 limits the sliding of the guide hole, so that the guide block 1336 linearly reciprocates along the guide chute 1162. The clamping portion 1338 is used for connecting with the water outlet member 135, so that the push-pull body 1330 swings under the driving of the eccentric wheel structure 1270, and the supporting rod 1334 drives the water outlet member 135 to swing in the through hole 1160 of the water outlet cover 116.

Specifically, the push-pull body 1330 may be opened with a fitting hole in driving connection with the eccentric wheel structure 1270, the fitting hole may be a rectangular hole, and the rectangular hole may include an inner side surface 1332, and the inner side surface 1332 is adapted to the outer circular surface 1272 of the eccentric wheel structure 1270.

Optionally, the guiding block 1336 is located between the clamping portion 1338 and the push-pull body 1330, the guiding block 1336 is a protrusion, and the clamping portion 1338 can be provided with a clamping groove.

Referring to fig. 8, a schematic structural diagram of the water outlet member 135 is shown.

The outlet 135 may include a nozzle 1352 and a connecting rod 1350 connected between the nozzle 1352.

Specifically, the outlet nozzle 1352 may include an inset portion 1353 and an outlet portion 1355. The inserting portion 1353 is inserted into a spherical hole provided inside the outlet cover 116 and inserted with a protrusion, and the outlet portion 1355 is inserted into the through hole 1160 of the outlet cover 116. When the impeller 123 drives the output member 127 to rotate through the gear transmission assembly 125, the output member 127 can drive the pushing and pulling member 133 to swing in the swing groove 1310 of the bracket 131, and the pushing and pulling member 133 can drive the water outlet member 135 to swing in the through hole 1160 of the water outlet cover 116, so that the water outlet member can spray the swing spray.

In order to make the outlet nozzle 1352 be better connected with the outlet cover 116 in a matching manner, the embedding portion 1353 of the outlet nozzle 1352 may be designed to be a spherical structure, and the embedding portion 1353 of the spherical structure may be just embedded in the embedding protrusion of the outlet cover 116 and be matched with the spherical hole of the embedding protrusion.

The connecting rod 1350 of the water outlet member 135 can be engaged with the engaging portion 1338 of the push-pull member 133, so that the push-pull member 133 can drive the water outlet member 135 to swing with respect to the through hole 1160 of the water outlet cover 116.

In addition, the embedded portion 1353 of the nozzle 1352 is further provided with water holes for water to flow out.

Alternatively, a nozzle 1352 may be provided at both ends of the connecting rod 1350 to form a water outlet 135. During installation, the connecting rod 1350 is clamped in the clamping groove of the clamping portion 1338, and the nozzles 1352 are correspondingly inserted into the through holes 1160 of the outlet cover 116.

In order to enable the push-pull member 133 and the output member 127 to be stably connected, optionally, the swing assembly 130 provided in the embodiment of the present application may further include a bracket 131, the push-pull member 133 is connected to the bracket 131, and the bracket 131 may provide a swing space for the push-pull member 133.

Referring to fig. 9, a structural diagram of the bracket 131 is shown.

The bracket 131 is fixedly connected to the accommodating cavity 1112 of the shower head body 110, and a swing groove 1310 adapted to the push-pull member 133 is formed in the center of the bracket 131. When the output member 127 drives the push-pull member 133 to move, the push-pull member 133 can swing in the swing groove 1310. Meanwhile, the pushing and pulling member 133 may also drive the connecting rod 1350 of the water discharging member 135 to swing synchronously, so that the connecting rod 1350 does not interfere with the bracket 131 during the swinging process.

Further, the bracket 131 may further include a guide arc 1312, the guide arc 1312 is located at both sides of the swing groove 1310, and the guide arc 1312 is adapted to fit the connection rod 1350 of the water discharging member 135.

When installed, the push-pull member 133 is connected to the eccentric structure 1270 of the output member 127 and is nested within the swing slot 1310 of the bracket 131. When the eccentric wheel structure 1270 drives the push-pull member 133 to swing in the swing groove 1310, the push-pull member 133 drives the connecting rod 1350 of the water outlet member 135 to swing along the guiding arc surface 1312, and the water outlet nozzle 1352 of the water outlet member 135 synchronously swings in the through hole 1160 under the action of the guiding block 1336 of the push-pull member 133.

Referring to fig. 10 and 11, cross-sectional views of the shower head 100 provided by the embodiment of the present application from different viewing angles are shown.

The operating principle of the shower head 100 provided by the embodiment of the application is as follows:

first, water flows into the shower main body 110 through the water inlet pipe, and then flows into the accommodating cavity 1112 from the inclined hole 1114. When the water flows through the inclined holes 1114, impact force can be generated, so that the blades 1230 in the impeller 123 are pushed to rotate;

then, the impeller 123 drives the driving wheel 1232 to rotate when rotating, and since the driving wheel 1232, the internal gear 1250 and the planetary gear 1252 form a planetary gear train, the planetary gear train is in transmission connection with the output member 127, and the output member 127 drives the eccentric gear structure 1270 to rotate. The outer circular surface 1272 of the eccentric wheel structure 1270 is matched and connected with the inner side surface 1332 of the push-pull piece 133, so that the push-pull piece 133 is driven to move.

Finally, because the guide block 1336 of the push-pull member 133 is engaged with the guide chute 1162 of the water outlet cover 116, the push-pull member 133 drives the water outlet member 135 to linearly oscillate under the guidance of the guide block 1336, so that the water outlet nozzle 1352 on the water outlet member 135 linearly oscillates and sprays.

Optionally, the number of the water outlet members 135 can be two, the two water outlet members 135 swing in the same step under the driving of the push-pull member 133, and an intermittent water outlet effect can be achieved, so that a swinging massage effect is achieved, and good experience of a user is promoted.

The embodiment of the application also provides a shower assembly.

The shower assembly can comprise a shower pipe and the shower head, and the shower head is connected to the water outlet end of the shower pipe, so that a top shower head or a handheld shower head can be formed, and a user can conveniently select and use the shower head.

The gondola water faucet that this application embodiment provided is through seting up the inclined hole on the gondola water faucet main part to produce the impact force of slope when making rivers flow from the inclined hole, and then provide the power supply for drive mechanism. The transmission mechanism drives the swinging assembly to swing through an eccentric wheel structure of the output part, so that the water outlet nozzle can spray linear swinging massage water spray. And in the spraying process, the massage experience can be provided for the user, so that the comfort requirement of people can be met while the user experience is improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. The utility model provides a but gondola water faucet of swinging splash which characterized in that includes:

the shower head comprises a shower head main body and a water outlet cover, wherein the water inlet main body comprises a water inlet pipe, an accommodating cavity and an inclined hole for communicating the water inlet pipe with the accommodating cavity, and the water outlet cover is provided with a through hole;

the transmission mechanism is arranged in the accommodating cavity and comprises an output piece with an eccentric wheel structure, and the transmission mechanism can drive the output piece to rotate under the drive of fluid flowing through the inclined hole; and

the swing assembly is in transmission connection with the eccentric wheel structure of the output part, the swing assembly comprises a water outlet part, the water outlet part is embedded in the through hole and can swing in the through hole under the driving of the eccentric wheel structure.

2. The sprinkler of claim 1, wherein the outlet cover further defines a guide chute, the swing assembly further comprises a push-pull member, the push-pull member comprises a push-pull body and a support rod, the push-pull body defines a mating hole in transmission connection with the eccentric wheel structure, the support rod includes a guide block and a clamping portion, the guide block is slidably embedded in the guide chute, and the outlet member is connected with the clamping portion so that the outlet member swings under the action of the push-pull member.

3. The sprinkler of claim 2, wherein the mating hole of the push-pull body is a slot, the slot includes an inner side, the cam is cylindrical and includes an outer circular surface for mating with the inner side, and an eccentric distance is provided between a central axis of the outer circular surface and a central axis of the output member.

4. The sprinkler of claim 2, wherein the clamping portion has a clamping groove, the water outlet member includes a water outlet nozzle and a connecting rod connected between the water outlet nozzles, the connecting rod is clamped in the clamping groove, and the water outlet nozzle is embedded in the through hole.

5. The sprinkler of claim 2, wherein the swinging assembly further comprises a bracket fixedly connected to the receiving cavity, the bracket defines a swinging groove adapted to the pushing and pulling member, the bracket further comprises a guiding arc surface adapted to the water outlet member, and the pushing and pulling member is connected to the eccentric wheel structure of the output member and embedded in the swinging groove, such that the eccentric wheel structure drives the pushing and pulling member to swing in the swinging groove, and the pushing and pulling member drives the water outlet member to swing along the guiding arc surface.

6. The sprinkler of a swingable splash as claimed in claim 1, wherein the transmission mechanism includes a rotating shaft, an impeller and a gear transmission assembly, the rotating shaft sequentially penetrates through the impeller, the gear transmission assembly and the output member, the impeller includes a blade and a driving wheel which are fixedly connected, the driving wheel is in transmission connection with the gear transmission assembly, and the output member is driven by the gear transmission assembly to rotate around the rotating shaft.

7. The sprinkler of a swingable splash as claimed in claim 6, wherein the gear transmission assembly includes an inner gear and a planetary gear, the driving wheel is disposed through the center of the inner gear and engaged with the planetary gear, and simultaneously, the planetary gear is engaged with the inner gear for transmission, and the planetary gear is rotatably connected to the output member.

8. The sprinkler of claim 7, wherein the output member further includes a rotating shaft extending toward a side away from the eccentric wheel structure, a distance between the rotating shaft and the rotating shaft being equal to a distance between a center of the planet wheel and a center of the drive wheel, the rotating shaft passing through a center hole of the planet wheel and being rotatably connected with the planet wheel.

9. The sprinkler of a swingable splash as claimed in claim 8, wherein the number of the planetary wheels is plural, the plurality of planetary wheels are simultaneously in mesh transmission with the driving wheel and the internal gear, the number of the rotating shafts is plural, and the rotating shafts are connected with the planetary wheels in a one-to-one correspondence.

10. A shower assembly, comprising:

a shower pipe; and

the showerhead of any one of claims 1 to 9, connected to the outlet end of the shower pipe.

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