CN117960417A - Water outlet device and shower device - Google Patents

Abstract

The application relates to the technical field of bathroom equipment, and discloses a water outlet device and shower equipment. The driving gear is meshed with the bevel gear on both sides, so that the driving gear can be uniformly stressed, and the service life of the driving mechanism can be prolonged. The power mechanism drives the driving gear to rotate so as to drive the two bevel gears to reversely rotate, and drives the two swinging parts to reversely rotate respectively so as to drive the two part water outlet nozzles to reversely swing, and the water flow emitted by the two part water outlet nozzles forms the effect of alternately swinging dynamic water outlet, so that the water flushing device has a better flushing effect, can realize efficient flushing, has novel water outlet mode and has better aesthetic property.

Description

Water outlet device and shower device

Case division information

The application is a divisional application of the application with the application number 202311302882.2 and the name of 'water outlet device and shower equipment' of 2023, 10 months and 10 days.

Technical Field

The application relates to the technical field of bathroom equipment, in particular to a water outlet device and shower equipment.

Background

In the shower head of the related art, the dynamic water outlet effect is achieved by changing the water outlet direction of the water outlet piece, and the shower head has the functions of shower and massage. For example, some technologies adopt water outlet pieces which are arranged in a straight line, and the water outlet pieces are driven to swing uniformly through a driving mechanism, so that a water flow effect of sweeping in the same direction in a swinging way is formed. However, the action trend of the water outlet piece in the swinging water outlet mode is consistent, the water outlet effect is single, and the water outlet effect is not rich enough. Still other technologies adopt water outlet pieces with circular layout, and the water outlet pieces are enabled to swing in the inner and outer directions uniformly through a driving mechanism, so that uniform open-close dynamic water flow is formed, and the massage effect and the ornamental value are certain, but the sweeping effect is poor.

Disclosure of Invention

The present application aims to solve at least one of the technical problems existing in the prior art. Therefore, the application provides a water outlet device capable of alternately swinging water and provides shower equipment comprising the water outlet device.

The water outlet device comprises a water inlet mechanism, a power mechanism, a driving mechanism and a water outlet mechanism, wherein a water inlet channel is formed in the water inlet mechanism; the power mechanism is arranged in the water inlet channel and is suitable for being pushed by water flow entering the water inlet channel to rotate; the driving mechanism comprises a driving gear, two bevel gears and two swinging pieces, wherein the two bevel gears are oppositely arranged and meshed with the driving gear respectively, the driving gear is used for driving the driving gear to rotate, the driving gear can drive the two bevel gears to reversely rotate, each bevel gear is provided with an eccentric connecting part which is eccentrically arranged, the swinging pieces are in transmission connection with the eccentric connecting parts, and the two bevel gears respectively drive the two swinging pieces to reversely rotate around the axis of the bevel gear through the eccentric connecting parts; the water outlet mechanism comprises a shell and a plurality of water outlet nozzles communicated with the water inlet channel, each water outlet nozzle is arranged in the shell at intervals along the extending direction of the corresponding swinging piece and is suitable for being abutted against the corresponding swinging piece, a water outlet of each water outlet nozzle is exposed out of the shell, and the two swinging pieces are suitable for driving a part of water outlet nozzles to reversely swing respectively.

The water outlet device provided by the embodiment of the first aspect of the application has at least the following beneficial effects: the driving gear is meshed with the two opposite bevel gears, so that the double sides are uniformly stressed, the service life of the driving mechanism can be prolonged, and the probability of influencing the water outlet effect due to the damage of the driving mechanism is reduced. The power mechanism rotates under the effect of water inflow, drives the driving gear to rotate so as to drive the two bevel gears to rotate reversely, respectively drives the two swinging parts to rotate reversely so as to drive the two part water outlet nozzles to swing reversely, the water flow emitted by the two part water outlet nozzles forms the effect of dynamic water outlet of alternate swing, the flushing and sweeping effects are good, the efficient flushing can be realized, the water outlet mode is novel, and the water outlet device has good attractiveness.

According to the water outlet device provided by the embodiment of the application, the two bevel gears are coaxially arranged, and the swinging piece is arranged along the axial extension of the bevel gears.

According to the water outlet device provided by the embodiment of the application, the two bevel gears have the same structure and are symmetrically arranged relative to the first reference surface, and the first reference surface is collinear with the axis of the driving gear and perpendicular to the axis of the bevel gear.

According to the water outlet device provided by the embodiment of the application, the tooth numbers of the two bevel gears are different, or the eccentric distances of the eccentric connecting parts of the two bevel gears are different.

According to the water outlet device provided by the embodiment of the application, the eccentric connecting part comprises the eccentric hole, one swinging piece is arranged in the eccentric hole of one bevel gear in a penetrating way, and the bevel gear drives the swinging piece to rotate through the eccentric hole.

According to the water outlet device provided by the embodiment of the application, the water outlet mechanism further comprises a fixing piece, the fixing piece is fixed in the shell, and the bevel gear is rotatably arranged on the fixing piece.

According to the water outlet device provided by the embodiment of the application, the driving mechanism further comprises the balance piece, the balance piece is respectively connected to one side, away from each other, of the two bevel gears, of each swing piece, the balance piece is rotatably arranged on the fixing piece, the balance piece is provided with an eccentric installation part, and the swing piece is connected to the installation part.

According to the water outlet device provided by the embodiment of the application, the swinging parts are in a straight rod structure, wherein the balance parts and the bevel gears which are connected with the same swinging part are coaxially arranged; or each helical gear and each balance member are coaxially arranged.

According to the water outlet device provided by the embodiment of the application, the shell comprises a body and a cover body, the cover body is provided with a connecting part connected with the body and a containing part connected with the connecting part, a containing cavity is arranged in the containing part, and an inner gear ring is arranged on the inner wall of the containing part; the power mechanism comprises an impeller and a stirring piece, the stirring piece is provided with a central hole, the peripheral wall of the stirring piece is provided with a gear shaping, the impeller is provided with an eccentric boss, the eccentric boss penetrates through the central hole, the impeller is suitable for being pushed by water flow entering from the water inlet mechanism to rotate, and the impeller can drive the stirring piece to eccentrically move through the eccentric boss so that the gear shaping is intermittently meshed with the annular gear.

According to the water outlet device provided by the embodiment of the application, the stirring piece is further provided with the track hole, and the track hole is positioned at the inner side of the gear shaping and the outer side of the central hole; the driving gear is located one side of the stirring piece, which is away from the impeller, one side of the driving gear, which is towards the stirring piece, is provided with a driving boss, the driving boss penetrates through the track hole, and the stirring piece can drive the driving gear to rotate through the track hole and the driving boss.

According to the water outlet device provided by the embodiment of the application, the aperture of the track hole is larger than the maximum size of the driving boss along the radial direction of the track hole.

A shower apparatus according to a second aspect of the present application comprises the water outlet device of the first aspect and a water conduit connected to the water inlet mechanism of the water outlet device for delivering water to the water inlet channel.

The shower apparatus according to the embodiment of the second aspect of the present application has at least the following advantageous effects: the shower room equipment realizes the effect of alternate swing dynamic water outlet through the setting of the water outlet device, has better flushing effect, can realize high-efficient flushing, has novel water outlet mode, has comfortable water experience on the user's body feeling, has better visual effect, and can promote the sight when using. And moreover, the driving gear of the water outlet device is uniformly stressed on both sides, so that the service life of the driving mechanism can be prolonged, the good quality of the shower equipment can be ensured to be kept after long-term use, and the user experience can be improved.

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

Drawings

FIG. 1 is a schematic view of a water inlet device according to an embodiment of the present application;

FIG. 2 is an exploded view of a water inlet device according to an embodiment of the present application;

FIG. 3 is a schematic diagram of the kinematic relationship of a portion of the structure of FIG. 1;

FIG. 4 is a schematic view of a first helical gear according to an embodiment of the present application;

FIG. 5 is a schematic view showing the structure of a second helical gear according to an embodiment of the present application;

FIG. 6 is a schematic diagram showing a part of the structure assembly of a driving mechanism according to an embodiment of the present application;

FIG. 7 is a schematic view of a water outlet state of a water inlet device according to an embodiment of the present application;

FIG. 8 is a schematic view of the water outlet state shown in FIG. 7 from another perspective;

FIG. 9 is a schematic view of another water outlet state of the water inlet device according to the embodiment of the present application;

FIG. 10 is a schematic view of the water outlet state shown in FIG. 9 from another perspective;

FIG. 11 is a schematic cross-sectional view of a water outlet device according to an embodiment of the present application along a plane of axes of a driving gear and a bevel gear;

FIG. 12 is a schematic view of the embodiment of FIG. 11 in a water outlet state;

FIG. 13 is a schematic cross-sectional view of a water outlet device according to another embodiment of the present application along a plane of axes of a driving gear and a bevel gear;

FIG. 14 is an enlarged schematic view of a portion of the portion I in FIG. 13;

FIG. 15 is a schematic view of the embodiment of FIG. 13 in a water out state;

FIG. 16 is a schematic view of a balance member according to an embodiment of the present application;

FIG. 17 is a schematic view of a fixing member according to an embodiment of the present application;

FIG. 18 is a schematic view of the body structure of the housing according to the embodiment of the present application;

FIG. 19 is a schematic view of a water outlet according to an embodiment of the present application;

FIG. 20 is a schematic view of a cover according to an embodiment of the present application;

FIG. 21 is a schematic view of a impeller according to an embodiment of the present application;

FIG. 22 is a schematic view of a structure of an oblique body of water according to an embodiment of the present application;

FIG. 23 is a schematic structural view of a toggle member according to an embodiment of the present application;

FIG. 24 is a schematic view of a driving gear according to an embodiment of the present application;

Fig. 25 is a schematic view illustrating an axial top view of the accommodating cavity according to an embodiment of the present application.

Reference numerals:

The water inlet mechanism 100, a water inlet body 110, a water inlet joint 111, a water inlet channel 112, an inclined water body 120, a rotary disc 121, a concentric shaft 122 and an inclined hole 123;

A power mechanism 200; impeller 210, eccentric boss 211, central through hole 212, vane 213, toggle 220, central hole 221, gear shaping 222, track hole 223;

The driving mechanism 300, the first helical gear 310, the first eccentric hole 311, the second helical gear 320, the second eccentric hole 321, the driving gear 330, the driving boss 331, the swinging member 340, the first swinging member 341, the second swinging member 342, the balancing member 350, the mounting portion 351, the hanging table 360;

the water outlet mechanism 400, the shell 410, the body 411, the lower groove 412, the cover 413, the connecting part 414, the accommodating part 415, the accommodating cavity 416, the ring gear 417, the supporting part 418, the fixing part 420, the mounting table 421, the side wall 422, the groove 423, the perforation 424, the water outlet nozzle 430, the spherical part 431, the abutting part 432, the jet hole 433, the open groove 434, the cantilever 435, the first water outlet nozzle 436 and the second water outlet nozzle 437.

Detailed Description

The conception and the technical effects produced by the present application will be clearly and completely described in conjunction with the embodiments below to fully understand the objects, features and effects of the present application. It is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present application based on the embodiments of the present application.

In the description of the embodiments of the present application, if an orientation description such as "upper", "lower", "front", "rear", "left", "right", etc. is referred to, it is merely for convenience of description and simplification of the description, and it is not indicated or implied that the apparatus or device referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the description of the embodiments of the present application, if a feature is referred to as being "disposed", "fixed", "connected" or "mounted" on another feature, it can be directly disposed, fixed or connected to the other feature or be indirectly disposed, fixed or connected or mounted on the other feature. In the description of the embodiments of the present application, if "several" is referred to, it means more than one, if "multiple" is referred to, it is understood that the number is not included if "greater than", "less than", "exceeding", and it is understood that the number is included if "above", "below", "within" is referred to. If reference is made to "first", "second" it is to be understood as being used for distinguishing technical features and not as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

The embodiment of the application provides a water outlet device and shower equipment with the water outlet device, which can realize novel alternate swing water outlet effect, and is beneficial to prolonging the service life, thereby optimizing the user experience. Embodiments of the application are described below with reference to the accompanying drawings:

Referring to fig. 1 to 6, the water outlet device according to the first aspect of the embodiment of the present application includes a water inlet mechanism 100, a power mechanism 200, a driving mechanism 300, and a water outlet mechanism 400, wherein a water inlet channel 112 is formed inside the water inlet mechanism 100 for accessing a water source. The power mechanism 200 is disposed in the water inlet 112 and adapted to be rotated by the flow of water into the water inlet 112.

The driving mechanism 300 includes a driving gear 330, two helical gears (a first helical gear 310 and a second helical gear 320), and two swinging members 340. The two bevel gears are oppositely arranged and meshed with the driving gear 330 respectively, each bevel gear is provided with an eccentric connecting part in an eccentric arrangement, the swinging parts 340 are connected to the eccentric connecting parts in a transmission manner, the power mechanism 200 is used for driving the driving gear 330 to rotate, the driving gear 330 can drive the two bevel gears to reversely rotate, and the two bevel gears respectively drive the two swinging parts 340 to reversely rotate around the axes of the bevel gears through the eccentric connecting parts.

The water outlet mechanism 400 includes a casing 410 and a plurality of water outlet nozzles 430 communicating with the water inlet channel, each water outlet nozzle 430 is disposed in the casing 410 at intervals along the extending direction of the swinging member 340 and adapted to abut against the corresponding swinging member 340, for example, a part of water outlet nozzle 430 abuts against one swinging member 340, and another part of water outlet nozzle 430 abuts against the other swinging member 340, thereby, the two swinging members 340 are adapted to respectively drive a part of water outlet nozzle 430 to swing reversely, and the water outlet of the water outlet nozzle 430 is exposed out of the casing 410, so that water can be jetted out of the casing 410. Therefore, the power mechanism 200 rotates under the action of the inflow water flow to drive the driving gear 330 to rotate, the driving gear 330 drives the two bevel gears to rotate, the rotation of the driving gear 330 is converted into rotation perpendicular to the axial direction of the driving gear 330, and the two bevel gears are respectively meshed with two sides of the driving gear 330, so that the rotation directions are opposite; the two bevel gears drive the two swing rods to do circular rotation motion around the axis of the bevel gears through the eccentric connection structure, and the motion directions are opposite, so that the two part water outlet nozzles 430 respectively abutting against the two swing rods are driven to swing reversely, the dynamic water outlet effect of alternately swinging water outlet is realized, the device can be used for shower and massage, the swing flushing effect is good, the flushing efficiency is high, and the user experience can be improved.

In addition, in the water outlet device of the embodiment of the application, the driving gear 330 is meshed with the two opposite bevel gears, so that the double sides are uniformly stressed, the service life of the driving mechanism 300 can be prolonged, and the probability of influencing the water outlet effect due to the damage of the driving mechanism 300 is reduced.

Referring to fig. 3, 6 to 10, in the above-described embodiment, two bevel gears may be referred to as a first bevel gear 310 and a second bevel gear 320, respectively, and two swinging members 340 may be referred to as a first swinging member 341 and a second swinging member 342, respectively, the first swinging member 341 being connected to an eccentric connection portion of the first bevel gear 310, and the second swinging member 342 being connected to an eccentric connection portion of the second bevel gear 320. Of the plurality of water nozzles 430, a portion of the water nozzles 430 corresponding to the first swing member 341 may be referred to as a first water nozzle 436, and a portion of the water nozzles 430 corresponding to the second swing member 342 may be referred to as a second water nozzle 437. Therefore, the first bevel gear 310 and the second bevel gear 320 are driven by the driving gear 330 to reversely rotate, so as to respectively drive the first swinging member 341 and the second swinging member 342 to reversely rotate, so that the first water outlet nozzle 436 and the second water outlet nozzle 437 reversely swing, two parts of water flows (the arrows in fig. 8 and 10 are adopted to indicate the swinging directions of the water flows) which reversely and alternately swing are formed, the water flows formed by swinging the first water outlet nozzle 436 and the second water outlet nozzle 437 have the functions of massaging and sweeping, the washing efficiency can be improved, the water can be alternately swung and swept, the full coverage with water can be realized, the stereoscopic shower can be realized, the comfortable water experience is provided for the user body feeling, and the better visual effect is provided.

Referring to fig. 3 to 6, in the water outlet device of some embodiments, the eccentric connection portion of the bevel gear includes an eccentric hole, and the swing member 340 is inserted into the eccentric hole to be movably assembled with the bevel gear, so that the swing member 340 can be driven to rotate around the axis of the bevel gear through the eccentric hole when the bevel gear rotates. For example, the first helical gear 310 is provided with a first eccentric hole 311, the first swinging member 341 is inserted into the first eccentric hole 311, the first helical gear 310 drives the first swinging member 341 to rotate through the first eccentric hole 311, the second helical gear 320 is provided with a second eccentric hole 321, the second swinging member 342 is inserted into the second eccentric hole 321, and the second helical gear 320 drives the second swinging member 342 to rotate through the second eccentric hole 321.

In some embodiments, the swinging member 340 may be fixedly connected to the bevel gear, that is, an eccentric connecting portion is disposed at an eccentric position on the bevel gear, the eccentric connecting portion may be a convex structure, a concave structure, a hole structure or a portion of a surface of the bevel gear, the swinging member 340 is fixedly connected to the eccentric connecting portion, the two swinging members 340 do not interfere with each other, and the swinging member 340 can be driven to rotate around the axis of the bevel gear when the bevel gear rotates.

Referring to fig. 2 to 6, in some embodiments, two bevel gears are coaxially disposed, and the swinging members 340 are disposed along the axial extension of the bevel gears, so that the plurality of water nozzles 430 may be disposed in a linear array corresponding to the swinging members 340, so that each swinging member 340 is convenient to abut against the corresponding water nozzle 430. The structures of the two bevel gears can be identical or different, different water outlet effects can be formed by different structures, the two bevel gears can be reasonably configured according to the required water outlet effects, and examples are provided below:

Referring to fig. 11 and 12, in the water outlet device of some embodiments, two bevel gears have the same structure and are symmetrically arranged relative to a first reference plane, the first reference plane is collinear with the axis of the driving gear 330 and is perpendicular to the axis of the bevel gears, that is, the two bevel gears are the same parts symmetrically arranged, so that when the driving gear 330 rotates, the two bevel gears drive the swinging member 340 to reversely rotate with the same radius and period, thereby driving the two water nozzles 430 to reversely swing with the same frequency and form an equal-amplitude included angle, that is, the first bevel gear 310 and the second bevel gear 320 reversely rotate, the track of the movement of the first swinging member 341 and the track of the second swinging member 342 are the same, and the directions of the movement of the first swinging member 341 and the second swinging member 342 are opposite, so that the first water nozzle 436 and the second water nozzle 437 can be driven to reversely and alternately swing with the same frequency and form a water outlet shape.

Referring to fig. 11 and 12, in the water outlet device of other embodiments, the teeth numbers of the two bevel gears are different, so that the rotation speeds are different, and the rotation periods of the two bevel gears are also different, so that when the driving gear 330 rotates, the two bevel gears rotate reversely to drive the swinging member 340 to rotate in different periods, so as to drive the two part water outlet nozzles 430 to swing reversely at different frequencies, and when the eccentricities of the eccentric connection parts are the same, the rotation radius of the swinging member 340 around the bevel gears is the same, and the swing amplitude included angles of the water outlet nozzles 430 are the same, so that swing water outlet with equal amplitude included angles can be formed. That is, when the pitch circles of the first helical gear 310 and the second helical gear 320 are the same, the tooth numbers are different, and the eccentricities of the eccentric connection portions are the same, the first helical gear 310 and the second helical gear 320 rotate in opposite directions, the rotation radii of the first swinging member 341 and the second swinging member 342 are the same, and the directions of the first swinging member 341 and the second swinging member 342 are opposite, so that the first water outlet nozzle 436 and the second water outlet nozzle 437 can be driven to form a constant-amplitude included angle (α=β), and the opposite alternate swinging water outlet forms with different frequencies can be realized.

Referring to fig. 13 to 15, in the water outlet device of other embodiments, the eccentric distances of the eccentric connection portions of the two bevel gears are different, so that the radii of the eccentric connection portions rotating along with the bevel gears are different, and therefore, when the driving gear 330 rotates, the two bevel gears rotate reversely to drive the swinging member 340 to rotate at different radii, so that the amplitude included angles driving the two part water outlet nozzles 430 to swing reversely are different, the frequency of the reverse swinging of the water outlet nozzles 430 is also different, and different amplitude included angles and different frequency swinging water outlet can be formed. The smaller the eccentricity, the closer the swinging member 340 is to the axis of the bevel gear, the smaller the rotation radius of the swinging member 340, the smaller the swinging angle of the water outlet nozzle 430, the faster the swinging frequency, the stronger the water outlet pulse feeling, and the swinging water with the intensity change is formed. That is, when the eccentricities of the eccentric connection portions of the first helical gear 310 and the second helical gear 320 are different, the first helical gear 310 and the second helical gear 320 rotate reversely, the rotation radii of the first swinging member 341 and the second swinging member 342 are different, and the directions are opposite, so that the first water outlet nozzle 436 and the second water outlet nozzle 437 can be driven to form an included angle with different amplitudes (α not equal to β), and the water outlet forms can swing reversely and alternately at different frequencies.

Referring to fig. 4, 5 and 17, in the water outlet device of some embodiments, the water outlet mechanism further includes a fixing member fixed to the inside of the housing, and the bevel gear is rotatably installed to the fixing member. Specifically, the bevel gears 310 and 320 are rotatably mounted on the fixing member 420, so as to be located inside the housing 410, and thus stable mounting of the bevel gears 310 and 320 is achieved, wherein the fixing member 420 may be provided with mounting platforms 421 corresponding to the bevel gears 310 and 320, respectively, so as to be rotatably mounted on the mounting platforms 421, for example, two sides of the bevel gears 310 and 320 along the extending direction of the swinging member 340 are provided with hanging platforms 360, respectively, and the bevel gears 310 and 320 may be rotatably mounted on the corresponding mounting platforms 421 through the respective hanging platforms 360, respectively, so as to achieve radial support of the bevel gears 310 and 320.

Referring to fig. 6 and 16, in the water outlet device of some embodiments, the driving mechanism 300 further includes a balancing member 350, each swinging member 340 is connected to the balancing member 350 on a side of the two bevel gears 310 and 320 facing away from each other, the balancing member 350 is provided with an eccentric mounting portion, and the swinging members are connected to the mounting portion. The eccentric mounting portion of the balancing member 350 may be a mounting hole, and the balancing member 350 may be sleeved on the swinging member 340 through the mounting hole. The balancing member 350 is rotatably mounted on the fixing member 420, and can form a supporting structure of the swinging member 340, so as to shorten the suspended length of the end portion of the swinging member 340, and effectively balance the stress of the swinging member 340 along the length direction. Especially, when the number of the water nozzles 430 in the linear arrangement is large and the length span is large, the swinging members 340 required by the water outlet device to drive the water nozzles 430 to swing synchronously are long, so that the parts of the swinging rods extending out of the sides of the bevel gears are long, the balancing members 350 are arranged at intervals on the sides of the bevel gears, which are away from each other, and the balancing members 350 can play a certain supporting role on the parts of the swinging members 340 suspended on the sides of the bevel gears, thereby being beneficial to balancing the stress of the swinging members 340.

Referring to fig. 6 and 16, in the water outlet device of some embodiments, the swinging members 340 are in a straight bar structure, wherein the balancing members 350 and the bevel gears 310 and 320 connected to the same swinging member 340 are coaxially arranged, the eccentric distances of the mounting portions of the balancing members 350 and the eccentric connecting portions of the bevel gears 310 and 320 connected to the same swinging member 340 are the same, and the supporting and sleeving of the swinging members 340 in the straight bar structure are realized, so that the structure of the swinging members is simplified. Or each helical gear 310, 320 and each balance member 350 are coaxially arranged, the eccentric distances of the mounting part 351 of each balance member 350 and the eccentric connecting part of each helical gear 310, 320 are the same, the support and the sleeve joint of the swinging members 340 with the straight rod structure are realized, and the maximum distance and the minimum distance between the two swinging members 340 and the fixing member 420 are equal, so that the two parts of water nozzles 430 can be arranged along the same straight line array, and the connecting structure and the assembly of the water nozzles 430 are convenient to be uniformly arranged.

Referring to fig. 4, 5, 16 and 17, in the water outlet device of some embodiments, hanging tables 360 may be provided at both sides of the bevel gears 310 and 320 and the balance member 350, respectively, along the extension direction of the swing member 340, mounting tables 421 may be provided on the fixing member 420 corresponding to the bevel gears 310 and 320 and the balance member 350, respectively, and the bevel gears 310 and 320 and the balance member 350 may be rotatably mounted to the corresponding mounting tables 421 through the respective hanging tables 360, respectively, to achieve radial support of the bevel gears 310 and 320 and the balance member 350.

In the above embodiment, the mounting table 421 includes two side walls 422 disposed at intervals, the two side walls 422 are respectively provided with a groove 423, the hanging table 360 is located in the groove 423 and abuts against the inner wall of the groove 423, the groove 423 is provided with an opening for the hanging table 360 to enter and exit the groove 423, and the hanging table 360 can enter and exit through the opening of the groove 423 to achieve assembly and disassembly, and is convenient to operate.

Referring to fig. 17 to 19, in the water outlet device according to the embodiment of the present application, a housing 410 includes a body 411 and a cover 413, a fixing member 420 is disposed between the body 411 and the cover 413, a water outlet nozzle 430 includes a spherical portion 431 and a supporting portion 432 connected to each other, and a jet hole 433 penetrating the spherical portion 431 and the supporting portion 432 is disposed inside the water outlet nozzle. The inner side of the body 411 of the casing 410 is provided with a lower groove 412 suitable for accommodating the spherical surface portion 431, one side of the fixing piece 420 facing the body 411 is provided with a perforation 424 corresponding to the position of the lower groove 412, and the spherical surface portion 431 is accommodated in the lower groove 412. The inner wall of the lower groove 412 is provided with a supporting position 418, the outer wall of the spherical surface portion 431 is provided with two opposite cantilevers 435, and the cantilevers 435 are abutted on the supporting position 418. The abutting portion 432 penetrates from the through hole 424 to a side of the fixing member 420 away from the spherical portion 431. The abutting part 432 is provided with an opening groove 434 extending along the penetrating direction of the jet hole 433, the swinging piece 340 is positioned in the opening groove 434, and in the moving process of the swinging piece 340, the swinging piece 340 is kept in the opening groove 434, and the abutting part 432 is driven to swing around the cantilever 435 relative to the spherical part 431 by the side wall 422 of the abutting opening groove 434, so that the water outlet swings reciprocally at an included angle alpha/included angle beta, and the swinging water outlet is realized. Referring to fig. 7 to 10, in the embodiment, the plurality of water nozzles 430 are in a linear array to form a water outlet effect of ultra-wide arrangement, and the device is applicable to wide body parts such as shoulders, backs and waists, and the dynamic water outlet of alternate reverse swing realizes efficient flushing and good massage experience, and improves the beauty.

Referring to fig. 20 to 23, in some embodiments, the cover 413 is provided with a connection portion 414 and a receiving portion 415, the connection portion 414 is connected to the body 411, and the receiving portion 415 is connected to the connection portion 414. The power mechanism 200 comprises an impeller 210 and a stirring member 220, the stirring member 220 is provided with a central hole 221, the impeller 210 is provided with an eccentric boss 211, the eccentric boss 211 penetrates through the central hole 221, and the impeller 210 is suitable for being pushed to rotate by water flow entering from the water inlet mechanism 100, so that the stirring member 220 is driven to rotate and eccentrically rotate around the axis of the impeller 210 by the movable fit of the eccentric boss 211 and the central hole 221. The accommodating cavity 416 is arranged in the accommodating portion 415, the power mechanism 200 is located in the accommodating cavity 416, the gear shaping 222 is arranged on the outer peripheral wall of the stirring piece 220, and the annular gear 417 is arranged on the inner wall of the accommodating portion 415. In the water inlet process, the impeller 210 can drive the stirring piece 220 to eccentrically move through the eccentric boss 211, so that the gear shaping 222 is intermittently meshed with the annular gear 417. The stirring member 220 is connected to the driving gear 330, and is used for transmitting rotation to the driving gear 330, the gear shaping 222 of the stirring member 220 is in clearance engagement with and separation from the inner gear ring 417 of the accommodating portion 415, so as to form effective deceleration, the stirring member 220 moves along a circular rotation track after deceleration, the gear shaping 222 and the inner gear ring 417 can be configured according to the requirement of the water outlet impact force to adjust the reduction ratio, and the structure is simple, stable and reliable.

Referring to fig. 23 and 24, the movable engagement of the toggle 220 with the drive gear 330 may be in the following manner: the stirring member 220 is further provided with a track hole 223, the track hole 223 is positioned on the inner side of the gear shaping 222 and the outer side of the central hole 221, the driving gear 330 is positioned on the side, facing away from the impeller 210, of the stirring member 220, a driving boss 331 is arranged on the side, facing towards the stirring member 220, of the driving gear 330, the driving boss 331 is arranged in the track hole 223 in a penetrating manner, the stirring member 220 can drive the driving gear 330 to rotate through the track hole 223 and the driving boss 331, the number of the driving bosses 331 can be one, two, three or more, and the driving bosses 331 with the number being more than two are arranged to be preferable in terms of axis symmetry relative to the driving gear 330. Correspondingly, the number of the track holes 223 is not less than that of the driving bosses 331, and the driving bosses 331 with a larger number and the track holes 223 cooperate to make the stress of the driving gear 330 more uniform, which is beneficial to improving the stability of the movement of the driving gear 330.

Referring to fig. 23-25, in some embodiments, the aperture of the track hole 223 is greater than the largest dimension of the drive boss 331 along the radial direction of the track hole 223, i.e., the drive boss 331 is radially movable within the track hole 223 relative to the track hole 223. For example, the driving boss 331 may have a cylindrical structure, and the diameter of the driving boss 331 is smaller than the aperture of the track hole 223. Thus, when the gear shaping 222 of the stirring member 220 and the ring gear 417 of the accommodating portion 415 are disengaged from each other, the stirring member 220 is temporarily stopped rotating, and the driving gear 330 can continue to rotate relative to the stirring member 220 due to inertia, and when the gear shaping 222 of the stirring member 220 and the ring gear 417 of the accommodating portion 415 are disengaged from each other, the stirring member 220 continues to be driven by the impeller 210 to rotate and drive the driving gear 330 to rotate. Thus, the intermittent engagement and disengagement of the toggle member 220 does not cause the abrupt stop or abrupt rotation of the driving gear 330, so that the swing of the swing member 340 is smoother, and the water outlet effect of the swing water outlet is better.

Referring to fig. 1, 2, 21 and 22, in the above embodiment, the water flow entering from the water inlet mechanism 100 can push the impeller 210 to rotate in the following manner: the water inlet mechanism 100 comprises a water inlet body 110 and an inclined water body 120, wherein the water inlet body 110 is provided with an inner cavity and is provided with a water inlet joint 111 communicated with the inner cavity, the inclined water body 120 comprises a rotary disc 121 and a concentric shaft 122, a central through hole 212 is arranged on an impeller 210, and the concentric shaft 122 is arranged in the central through hole 212 in a penetrating mode. The power mechanism 200 includes an impeller 210 and a toggle member 220, wherein a side of the impeller 210 facing the turntable 121 is provided with a convex blade 213, and a plurality of blades 213 are disposed around a central through hole 212. The turntable 121 is provided with inclined holes 123, the plurality of inclined holes 123 are circumferentially distributed around the concentric shaft 122, at least one inclined plane inclined relative to the concentric shaft 122 is formed on the inner wall of the inclined holes 123, and the inclined planes of the inclined holes 123 are consistent with each other around the inclined direction of the concentric shaft 122, so that when water flows into the inner cavity of the water body 110 through the water inlet joint 111, the flowing direction of the water flows obliquely relative to the central shaft through the inclined holes 123, so that the water obliquely impacts the blades 213 of the impeller 210, and the inclined acting force applied to the blades 213 comprises a component force along the tangential direction, so that the turntable 121 can be driven to rotate.

Referring to the movement relationship of the partial structures shown in fig. 3, the assembly relationship of each structure is illustrated by straight stippling, the relative rotation directions of the oblique water body 120, the impeller 210, the stirring member 220 and the driving gear 330 are sequentially illustrated by the annular stippling A, B, C, D with arrows, and the relative rotation directions of the balance member 350, the second bevel gear 320, the first bevel gear 310 and the balance member 350 are sequentially illustrated by the annular stippling E, F, G, H with arrows. Referring to fig. 2 and 3, when water is fed, the water flows through the oblique water body 120 and then drives the impeller 210 to rotate, the impeller 210 drives the stirring element 220 to rotate, and the stirring element 220 drives the driving gear 330 to rotate. The driving gear 330 drives the bevel gears 310 and 320 to reversely rotate, the first bevel gear 310 and the second bevel gear 320 respectively drive the two swinging members 340 to reversely rotate around the axis through the eccentric connecting parts, and each swinging member 340 respectively drives the balancing member 350 to reversely rotate, so that when water is fed, the rotation is converted into the alternate reverse swinging of the water outlet nozzle 430 through the motion conversion, the dynamic water outlet effect of alternate swinging water outlet is realized, the high-efficiency flushing effect is realized, the high-efficiency flushing can be realized, the water outlet mode is novel, the comfortable water use experience is realized on the body feeling of a user, the visual effect is better, and the ornamental value in use can be improved.

An embodiment of a second aspect of the present application provides a shower apparatus, including the water outlet device of the embodiment of the first aspect, and a water delivery pipe connected to a water inlet mechanism of the water outlet device, for delivering water to a water inlet channel, and when installed, the water delivery pipe is used for accessing a water source. According to the shower room equipment provided by the embodiment of the application, the effect of dynamic alternate swinging water outlet is realized through the water outlet device, and the driving gear is uniformly stressed on both sides, so that the service life of the driving mechanism can be prolonged, the probability of influencing the water outlet effect due to damage of the driving mechanism is reduced, the good quality of the shower equipment after long-term use is ensured, and the user experience is promoted.

The embodiments of the present application have been described in detail with reference to the accompanying drawings, but the present application is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present application. Furthermore, embodiments of the application and features of the embodiments may be combined with each other without conflict.

Claims (11)

1. The play water installation, its characterized in that includes:

A water inlet mechanism, in which a water inlet channel is formed;

the power mechanism is arranged in the water inlet channel and is suitable for being pushed by water flow entering the water inlet channel to rotate;

The driving mechanism comprises a driving gear, two bevel gears and two swinging pieces, wherein the eccentricities of the eccentric connecting parts of the two bevel gears are different, the two bevel gears are oppositely arranged and are respectively meshed with the driving gear, the driving mechanism is used for driving the driving gear to rotate, the driving gear can drive the two bevel gears to reversely rotate, each bevel gear is provided with an eccentric connecting part which is eccentrically arranged, the swinging pieces are in transmission connection with the eccentric connecting parts, and the two bevel gears respectively drive the two swinging pieces to reversely rotate around the axle center of the bevel gear through the eccentric connecting parts;

The water outlet mechanism comprises a shell and a plurality of water outlet nozzles communicated with the water inlet channel, a plurality of lower grooves are formed in the shell, the water outlet nozzles are arranged in the lower grooves at intervals along the extending direction of the swinging parts and are suitable for being abutted against the corresponding swinging parts, the water outlet of the water outlet nozzles is exposed out of the shell, and the two swinging parts are suitable for respectively driving a part of the water outlet nozzles to swing reversely.

2. The water outlet device according to claim 1, wherein the eccentric connecting portion includes an eccentric hole, one of the swinging members is disposed through the eccentric hole of one of the bevel gears, and the bevel gears rotate the swinging member through the eccentric hole.

3. The water outlet device of claim 1, wherein the water outlet mechanism further comprises a fixing member fixed to the inside of the housing, the bevel gear being rotatably mounted to the fixing member.

4. The water outlet device according to claim 3, wherein the water outlet nozzle comprises a spherical surface part, two opposite cantilevers are arranged on the outer wall of the spherical surface part, the shell comprises a body and a cover body, the lower groove is formed in the body, a supporting position is formed in the inner wall of the lower groove, and the water outlet nozzle is abutted to the supporting position through the cantilevers.

5. The water outlet device according to claim 4, wherein the water outlet nozzle further comprises a supporting portion connected with the spherical portion, a perforation is arranged on a position, corresponding to the lower groove, of one side of the fixing piece facing the body, and the supporting portion penetrates out of the perforation to one side, away from the spherical portion, of the fixing piece.

6. The water outlet device according to claim 5, wherein the abutting portion is provided with an open groove extending in the water outlet direction, and the swinging member swings in the open groove.

7. A water outlet device according to claim 3, wherein the driving mechanism further comprises a balance member, each of the swinging members is connected to the balance member at a side of the two bevel gears facing away from each other, the balance member is rotatably mounted to the fixing member, the balance member is provided with an eccentric mounting portion, and the swinging members are connected to the mounting portion.

8. The water outlet device according to claim 7, wherein the swinging members have a straight rod structure, wherein the balance member and the bevel gear connected to the same swinging member are coaxially arranged; or each helical gear and each balance member are coaxially arranged.

9. The water outlet device according to claim 1, wherein the housing comprises a body and a cover body, the cover body is provided with a connecting part connected with the body and a containing part connected with the connecting part, a containing cavity is arranged in the containing part, and an inner gear ring is arranged on the inner wall of the containing part;

the power mechanism comprises an impeller and a stirring piece, the stirring piece is provided with a central hole, the peripheral wall of the stirring piece is provided with a gear shaping, the impeller is provided with an eccentric boss, the eccentric boss penetrates through the central hole, the impeller is suitable for being pushed by water flow entering from the water inlet mechanism to rotate, and the impeller can drive the stirring piece to eccentrically move through the eccentric boss so that the gear shaping is intermittently meshed with the annular gear.

10. The water outlet device of claim 9, wherein the toggle member is further provided with a track hole, the track hole being located inside the gear shaping and outside the central hole; the driving gear is located one side of the stirring piece, which is away from the impeller, one side of the driving gear, which is towards the stirring piece, is provided with a driving boss, the driving boss penetrates through the track hole, and the stirring piece can drive the driving gear to rotate through the track hole and the driving boss.

11. A shower apparatus, comprising:

a water outlet device according to any one of claims 1 to 10;

The water conveying pipeline is connected with the water inlet mechanism of the water outlet device and used for conveying water to the water inlet channel.