CN204320518U - A kind of shower apparatus of giving out water when rotating - Google Patents

Abstract

The utility model discloses a kind of shower apparatus of giving out water when rotating, comprise the drain pan that bottom is opening-like, the water inlet lid being configured in the holder on drain pan and being configured on holder, upper plenum is formed between water inlet lid and holder, lower cavity is formed between drain pan and holder, water inlet covers and is provided with water inlet, the inwall of water inlet lid is provided with into water lid delivery port, holder is at least provided with one for being communicated with the holder connecting hole of upper plenum and lower cavity, the impeller that can rotate is provided with in upper plenum, the deceleration member and outflow cover for water that are connected with impeller is provided with in lower valve chamber, impeller can drive described deceleration member to rotate, and the output speed of deceleration member is less than the rotating speed of impeller, deceleration member is connected with outflow cover for water, and outflow cover for water can be driven to rotate, described outflow cover for water is at least provided with an apopore.The shower apparatus that the utility model provides, slowing effect is good, rotary water-out is stable.

Description

A kind of shower apparatus of giving out water when rotating

Technical field

The utility model relates to bathroom hot-water heating technical field, particularly relates to a kind of shower apparatus of giving out water when rotating.

Background technology

Along with growth in the living standard, people require also more and more higher to the comfortableness of sanitary bath equipment.In order to better shower experience can be obtained, there is the gondola water faucet with massage effluent functions.The existing gondola water faucet with massage effluent functions has impulse type, air bubble type and rotary-type, and rotary-type gondola water faucet is when rotary water-out, and current are skew force to the active force of human body, allow people feel more soft than vertical water outlet, and massage effect is also fine.Revolving gondola water faucet is than fixed gondola water faucet simultaneously, and shower area is larger.But the shower apparatus of giving out water when rotating in the market, rotating speed is difficult to control, and slowing effect is bad, even can not rotate under low water pressures.

Summary of the invention

In view of this, the purpose of this utility model is to overcome defect of the prior art, provides the shower apparatus that a kind of slowing effect is good, rotary water-out is stable.

The shower apparatus that the utility model provides, comprise the drain pan that bottom is opening-like, the water inlet lid being configured in the holder on described drain pan and being configured on described holder, upper plenum is formed between described water inlet lid and described holder, lower cavity is formed between described drain pan and described holder, described water inlet covers and is provided with water inlet, the inwall of described water inlet lid is provided with into water lid delivery port, described holder is at least provided with one for being communicated with the holder connecting hole of described upper plenum and described lower cavity, the impeller that can rotate is provided with in described upper plenum, the deceleration member be connected with described impeller and outflow cover for water is provided with in described lower cavity, described impeller can drive described deceleration member to rotate, and the output speed of described deceleration member is less than the rotating speed of described impeller, described deceleration member is connected with described outflow cover for water, and described outflow cover for water can be driven to rotate, described outflow cover for water is at least provided with an apopore.

Further, described deceleration member comprises eccentric bushing, Cycloidal Wheel and output shelf, the middle part of described Cycloidal Wheel is provided with the Cycloidal Wheel mesopore for installing described eccentric bushing, and described Cycloidal Wheel is also provided with the Cycloidal Wheel through hole passed through for current, and the outward flange of described Cycloidal Wheel is provided with Cycloidal Wheel external tooth;

Be extended with impeller shaft downwards in the middle part of the lower surface of described impeller, described impeller shaft through described holder mesopore, and matches with described eccentric bushing; The inwall of described holder is provided with pin tooth, and described Cycloidal Wheel external tooth matches with described pin tooth; Described eccentric bushing is arranged in described Cycloidal Wheel mesopore, and described eccentric bushing can drive described Cycloidal Wheel along the described pin tooth rotation of described holder; Described Cycloidal Wheel is arranged in described output shelf, and can drive described output shelf synchronous axial system, and described output shelf is connected with described outflow cover for water, and described output shelf can drive described outflow cover for water synchronous axial system.

Further, described deceleration member comprises output shelf and is configured in the first reduction gearing in described output shelf, described output shelf is also provided with the output shelf through hole passed through for current; Impeller shaft is extended with downwards in the middle part of the lower surface of described impeller, the outer surface of described impeller shaft is provided with rotating shaft external tooth, described impeller shaft is through described holder mesopore, and described rotating shaft external tooth is meshed with described first reduction gearing, the number of teeth of described rotating shaft external tooth is less than the number of teeth of described first reduction gearing; The inwall of described holder is provided with holder annular tooth, and described first reduction gearing is meshed with described holder annular tooth; Described first reduction gearing can be rotated in described holder annular tooth, and drives described output shelf synchronous axial system, and described output shelf is connected with described outflow cover for water, and described output shelf can drive described outflow cover for water synchronous axial system.

Further, described deceleration member also comprises the second reduction gearing, and described second reduction gearing is between described output shelf and described outflow cover for water; Output shelf rotating shaft is extended with downwards in the middle part of the lower surface of described output shelf, the outer surface of described output shelf rotating shaft is provided with output shelf rotating shaft tooth, described output shelf rotating shaft tooth is meshed with described second reduction gearing, and the number of teeth of described second reduction gearing is greater than the number of teeth of described output shelf rotating shaft tooth;

Described second reduction gearing is also meshed with described holder annular tooth, and described second reduction gearing can be rotated and can drive described outflow cover for water synchronous axial system in described holder annular tooth.

Further, described deceleration member also comprises eccentric gear and support, described eccentric gear is arranged on described outflow cover for water, described Bracket setting is on described eccentric gear, the outward flange of described support is connected with described holder, the middle part of described support is provided with rack ventilating hole, the eccentric position of described support is also provided with the support connecting hole for connecting eccentric gear;

The upper surface middle part of described eccentric gear is upwards extended with rotating shaft on eccentric gear, and the eccentric position of lower surface of described eccentric gear is extended with eccentric gear lower rotary shaft downwards, and described eccentric gear is provided with spacing between rotating shaft and described eccentric gear lower rotary shaft; On described eccentric gear, rotating shaft is arranged in described support connecting hole;

Output shelf rotating shaft is extended with downwards in the middle part of the lower surface of described output shelf, the outer surface of described output shelf rotating shaft is provided with output shelf rotating shaft tooth, described output shelf rotating shaft is through described rack ventilating hole, and described output shelf rotating shaft tooth is meshed with described eccentric gear, the number of teeth of described eccentric gear is greater than the number of teeth of described output shelf rotating shaft tooth; Described outflow cover for water is provided with chute, and described eccentric gear lower rotary shaft is arranged in described chute, drives described eccentric gear lower rotary shaft to come and go in described chute and slides, make described outflow cover for water reciprocating swing when described eccentric gear rotates.

Further, the pendulum angle of described outflow cover for water is 10 °-60 °.

Further, ball is provided with between described outflow cover for water and described drain pan.

Further, ball is provided with between described outflow cover for water and described holder.

Further, sealing ring is provided with between described outflow cover for water and described drain pan.

Further, the blade of described impeller is skewed, and the delivery port of described water inlet lid is in tiltedly exporting shape, and the incline direction of described delivery port water outlet direction and described blade is perpendicular.

Adopt technique scheme, there is following beneficial effect:

The discharge switching device that the utility model provides, owing to being provided with impeller between water inlet lid and holder, when external water stream flows in water inlet lid, impeller rotated, and impeller drives outflow cover for water to rotate by reducing gear, makes current rotate outflow from outflow cover for water.Reducing gear slow down the rotary speed of outflow cover for water, makes the speed of the device water outlet of the design can not be excessive, and keeps stably rotary water-out, improves the comfortableness of user.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the shower apparatus of the utility model giving out water when rotating;

Fig. 2 is the STRUCTURE DECOMPOSITION figure of the first embodiment of shower apparatus of the utility model giving out water when rotating;

Fig. 3 is the schematic perspective view of the water inlet lid of the shower apparatus of the utility model giving out water when rotating;

Fig. 4 is the schematic perspective view at the impeller visual angle from the bottom up of the first embodiment of shower apparatus of the utility model giving out water when rotating;

Fig. 5 is the schematic perspective view at the holder visual angle from the bottom up of the first embodiment of shower apparatus of the utility model giving out water when rotating;

Fig. 6 is the front view of the Cycloidal Wheel of the first embodiment of shower apparatus of the utility model giving out water when rotating;

Fig. 7 is the schematic perspective view at the output shelf visual angle from the bottom up of the first embodiment of shower apparatus of the utility model giving out water when rotating;

Fig. 8 is the schematic perspective view of the outflow cover for water of the first embodiment of shower apparatus of the utility model giving out water when rotating;

Fig. 9 is the top view of the first embodiment of shower apparatus of the utility model giving out water when rotating;

Figure 10 be in Fig. 9 A-A to schematic cross-section;

Figure 11 be in Figure 10 B-B to schematic cross-section;

Figure 12 is the STRUCTURE DECOMPOSITION figure of shower apparatus the second embodiment of the utility model giving out water when rotating;

Figure 13 be shower apparatus the second embodiment of the utility model giving out water when rotating impeller from the bottom up visual angle schematic perspective view;

Figure 14 is the schematic perspective view at the holder visual angle from the bottom up of shower apparatus the second embodiment of the utility model giving out water when rotating;

Figure 15 is the schematic perspective view at the output shelf visual angle from the bottom up of shower apparatus the second embodiment of the utility model giving out water when rotating;

Figure 16 is the top view of shower apparatus the second embodiment of the utility model giving out water when rotating;

Figure 17 be in Figure 16 C-C to schematic cross-section;

Figure 18 be in Figure 17 D-D to schematic cross-section;

Figure 19 is the STRUCTURE DECOMPOSITION figure of the third embodiment of shower apparatus of the utility model giving out water when rotating;

Figure 20 is the schematic perspective view at the output shelf visual angle from the bottom up of the third embodiment of shower apparatus of the utility model giving out water when rotating;

Figure 21 is the schematic perspective view of the support of the third embodiment of shower apparatus of the utility model giving out water when rotating;

Figure 22 is the schematic perspective view of the eccentric gear of the third embodiment of shower apparatus of the utility model giving out water when rotating;

Figure 23 is the schematic perspective view of the outflow cover for water of the third embodiment of shower apparatus of the utility model giving out water when rotating;

Figure 24 is the top view of the third embodiment of shower apparatus of the utility model giving out water when rotating;

Figure 25 be in Figure 24 E-E to schematic cross-section;

Figure 26 be in Figure 25 F-F to schematic cross-section;

Figure 27 be in Figure 25 G-G to schematic cross-section.

The Reference numeral table of comparisons:

100-shower apparatus;

1-is intake lid; 2-holder; 3-drain pan;

4-deceleration member; 5-outflow cover for water; 6-impeller;

7-ball; 8-ball; 9-sealing ring;

11-water inlet; 12-water inlet lid delivery port; 13-water inlet lid protuberance;

21-holder mesopore;

22-holder connecting hole; 23-pin tooth; 24-holder annular tooth;

41-deceleration member;

411-eccentric bushing; 412-Cycloidal Wheel; 413-output shelf;

412a-Cycloidal Wheel mesopore; 412b-Cycloidal Wheel through hole; 412c-Cycloidal Wheel external tooth;

412d-Cycloidal Wheel installing hole; Connecting axle in 413a-output shelf;

Connecting axle under 413b-output shelf; 413c-output shelf through hole;

51-apopore; 52-outflow cover for water connecting hole; 53-chute;

61-blade; 62-impeller shaft;

63-rotating shaft external tooth;

42-deceleration member;

421-first reduction gearing; 422-output shelf; 423-second reduction gearing;

The rotating shaft of 422a-output shelf; 422b-output shelf through hole;

422c-output shelf rotating shaft tooth;

43-deceleration member;

431-first reduction gearing; 432-output shelf; 433-support;

434-eccentric gear; The rotating shaft of 432a-output shelf;

432b-output shelf through hole; 432c-output shelf rotating shaft tooth;

433a-rack ventilating hole; 433b-support connecting hole;

Axle on 434a-eccentric gear; 434b-eccentric gear lower shaft.

Detailed description of the invention

Detailed description of the invention of the present utility model is further illustrated below in conjunction with accompanying drawing.It should be noted that, the word "front", "rear" of use is described below, "left", "right", "up" and "down" refer to direction in accompanying drawing, word " interior " and " outward " refer to the direction towards or away from particular elements geometric center respectively.

As Fig. 1, Fig. 2, shown in Figure 12 and Figure 19, drain pan 3 opening-like bottom the shower apparatus 100 of the utility model giving out water when rotating, the water inlet lid 1 being configured in the holder 2 on drain pan 3 and being configured on holder 2, upper plenum is formed between water inlet lid 1 and holder 2, lower cavity is formed between drain pan 3 and holder 2, water inlet lid 1 is provided with water inlet 11, the inwall of water inlet lid 1 is provided with into water lid delivery port 12, holder 21 is at least provided with one for being communicated with the holder connecting hole 22 of upper plenum and lower cavity, the impeller 6 that can rotate is provided with in upper plenum, the deceleration member 4 be connected with impeller 6 and outflow cover for water 5 is provided with in lower cavity, impeller 6 can drive deceleration member 4 to rotate, and the output speed of deceleration member 4 is less than the rotating speed of impeller 6, deceleration member 4 is connected with outflow cover for water 5, and outflow cover for water 5 can be driven to rotate, outflow cover for water 5 is at least provided with an apopore 51.

Owing to being provided with impeller 6 between water inlet lid 1 and holder 2, as shown in Figures 2 and 3, the concrete mounting means of impeller 6 is, be extended with into water lid protuberance 13 downwards in the middle part of the inner surface of water inlet lid 1, the upper surface middle part of impeller 6 is provided with downward axis hole, the axis hole of impeller 6 is arranged on on water lid protuberance 13, impeller 6 can be rotated along water inlet lid protuberance 13.

External water stream, for being connected with outer water tube, is introduced in water inlet lid 1 by the water inlet 11 on water inlet lid 1, and flows out from water inlet lid delivery port 12, penetrates on the blade 61 of impeller 6, promotes impeller 6 and rotate.

Current flow into the upper plenum that water inlet lid 1 and holder 2 formed from water inlet lid delivery port 12, then from cavity holder connecting hole 22 inflow, and finally flow out from apopore 51.

Be connected with deceleration member 4 below impeller 6, deceleration member 4 can be driven when impeller 6 rotates to rotate, but self have the function of deceleration due to deceleration member 4, the output speed of the deceleration member 4 made is less than its output speed.And deceleration member 4 connects outflow cover for water 5, outflow cover for water 5 is provided with apopore 51, when deceleration member 4 rotates, drives outflow cover for water 5 synchronous axial system, current are flowed out rotatably from apopore 51.

Above-mentioned deceleration member 4 can be cycloidal planetary gear speed reducer structure, also can be planet gear reducing mechanism etc.Due to the decelerating effect of deceleration member 4, the water velocity that outflow cover for water 5 flows out is moderate, improves the comfortableness of user.

As shown in Fig. 2-Figure 11, in the first embodiment of the present utility model, deceleration member 41 comprises eccentric bushing 411, Cycloidal Wheel 412 and output shelf 413, the middle part of Cycloidal Wheel 412 is provided with the Cycloidal Wheel mesopore 412a for setting-up eccentricity cover 411, and Cycloidal Wheel 412 is also provided with the Cycloidal Wheel through hole 412b passed through for current, the outward flange of Cycloidal Wheel 412 is provided with Cycloidal Wheel external tooth 412c.Be extended with impeller shaft 62 downwards in the middle part of the lower surface of impeller 6, the middle part of holder 2 is provided with holder mesopore 21, and impeller shaft 62 through holder mesopore 21, and matches with eccentric bushing 411.Holder 2 inwall is provided with pin tooth 23, and Cycloidal Wheel external tooth 412c matches with pin tooth 23.Eccentric bushing 411 is arranged in Cycloidal Wheel mesopore 412a, and eccentric bushing 411 can drive Cycloidal Wheel 412 to rotate along the pin tooth 23 of holder 2.Cycloidal Wheel 412 is arranged in output shelf 413, and can drive output shelf 413 synchronous axial system, and output shelf 413 is connected with outflow cover for water 5, and output shelf 413 can drive outflow cover for water 5 synchronous axial system.

As shown in Fig. 2, Fig. 9 and Figure 10, impeller 6 is arranged on holder 2, and the blade 61 of impeller 6 is positioned at the top of holder 2, and the impeller shaft 62 of impeller 6 passes holder mesopore 21 and matches with eccentric bushing 411, and eccentric bushing 411 is arranged in Cycloidal Wheel through hole 412b.When impeller shaft 62 rotates, Cycloidal Wheel 412 is driven to rotate by eccentric bushing 411.

As shown in figure 11, in above-described embodiment, deceleration member 41 is cycloidal-pin wheel mechanism, this reducing gear principle is, when impeller shaft 62 is in rotary course, when often driving eccentric bushing 411 to rotate one week, due to the feature of the tooth curve of the Cycloidal Wheel external tooth 412c of Cycloidal Wheel 412 and limit by pin tooth 23, when impeller shaft 62 rotates one week, eccentric bushing 411 also rotates one week, and then drive Cycloidal Wheel 412 turn over a tooth of pin tooth 23 in the opposite direction thus slowed down, thus obtain lower output speed.

As shown in Fig. 6, Fig. 7 and Fig. 8, Cycloidal Wheel 412 is provided with the Cycloidal Wheel installing hole 412d for connecting output shelf 413, output shelf 413 upper surface has and is upwards extended with connecting axle 413a in output shelf, on output shelf 413 lower surface, oriented downward-extension has connecting axle 413b under output shelf.Outflow cover for water 5 is provided with outflow cover for water connecting hole 52.During concrete installation, Cycloidal Wheel 412 be placed in output shelf 413, connecting axle 413a in output shelf is inserted in Cycloidal Wheel installing hole 412d, then output shelf 413 is placed on outflow cover for water 5, under making output shelf, connecting axle 413b is inserted in outflow cover for water connecting hole 52.Like this, when Cycloidal Wheel 412 is rotated, drive output shelf 413 to rotate, and then drive outflow cover for water to rotate.In above-mentioned Cycloidal Wheel installing hole 412d, output shelf, under connecting axle 413a, output shelf, connecting axle 413b and outflow cover for water connecting hole 52 can be multiple, make corresponding rotatable parts uniform force like this, rotation more steady.Such as, Cycloidal Wheel 412 sets three Cycloidal Wheel installing hole 412d, and three Cycloidal Wheel installing hole 412d are uniformly distributed, the angle namely often between any two adjacent Cycloidal Wheel installing hole 412d is 120 °, and output shelf 413 correspondingly sets connecting axle 413a in three output shelf.When Cycloidal Wheel 412 is rotated, in three output shelf, connecting axle 413a is all subject to the thrust of Cycloidal Wheel 412, thus output shelf 413 can be rotated reposefully.In like manner, under output shelf 413 lower surface is provided with three equally distributed output shelf, connecting axle 413b is connected with outflow cover for water 5, ensure that outflow cover for water 5 rotates reposefully.Meanwhile, adopt cycloidal planetary gear speed reducer structure to slow down, concrete speed reducing ratio is large, and noise is low, and the advantage such as operate steadily.

As shown in Figure 12-Figure 18, in the second embodiment of the present utility model, the first reduction gearing 421 that deceleration member 42 comprises output shelf 422 and is configured in output shelf 422, output shelf 422 is also provided with the output shelf through hole 422b passed through for current.Impeller shaft 62 is extended with downwards in the middle part of the lower surface of impeller 6, the outer surface of impeller shaft 62 is provided with rotating shaft external tooth 63, impeller shaft 62 is through holder mesopore 21, and rotating shaft external tooth 63 is meshed with the first reduction gearing 421, and the number of teeth of rotating shaft external tooth 63 is less than the number of teeth of the first reduction gearing 421.The inwall of holder 21 is provided with holder annular tooth 24, first reduction gearing 24 and is meshed with holder annular tooth 24.First reduction gearing 421 can be rotated in holder annular tooth 24, and drives output shelf 422 synchronous axial system, and output shelf 422 is connected with outflow cover for water 5, and output shelf 422 can drive outflow cover for water 5 synchronous axial system.

When impeller 6 rotates, impeller rotating shaft 62 is rotated, and because rotating shaft external tooth 63 is meshed with the first reduction gearing 421, thus drives the first reduction gearing 421 to rotate.The number of teeth due to rotating shaft external tooth 63 is less than the number of teeth of the first reduction gearing 421, and therefore, the rotating speed of the first reduction gearing 421 is less than the rotating speed of impeller 6, achieves the reduction object of rotating speed.

First reduction gearing 421 is meshed with holder annular tooth 24 again, and the first reduction gearing 421, while rotation, can be subject to the reaction force of holder annular tooth 421, the first reduction gearing 421 is rotated in holder annular tooth 421.

First reduction gearing 421 is configured in output shelf 422, and therefore, drive output shelf 422 is rotated when rotating by the first reduction gearing 421, and resulting belt outflow cover for water 5 synchronous axial system, realize rotary water-out object.

As shown in Figure 12 and Figure 18, output shelf 422 is provided with three the first reduction gearing 421, three the first reduction gearing 421 are evenly distributed in output shelf 422, and all engage with stationary annular tooth 24, when such impeller 6 rotates, the rotatory force of impeller 6 is passed to three the first reduction gearing 421 by impeller shaft 62 equably, avoids output shelf 422 occur discontinuity when rotation and swing, output shelf 422 is rotated reposefully, and then ensures that outflow cover for water stably rotates.

As shown in figure 12, in above-described embodiment, deceleration member 42 also comprises the second reduction gearing 423, second reduction gearing 423 between output shelf 422 and outflow cover for water 5.Output shelf rotating shaft 422a is extended with downwards in the middle part of the lower surface of output shelf 422, the outer surface of output shelf rotating shaft 422a is provided with output shelf rotating shaft tooth 422c, output shelf rotating shaft tooth 422c is meshed with the second reduction gearing 423, and the number of teeth of the second reduction gearing 423 is greater than the number of teeth of output shelf rotating shaft tooth 422c.Second reduction gearing 422c is also meshed with holder annular tooth 24, and the second reduction gearing 24 can be rotated in holder annular tooth 24, and can drive outflow cover for water 5 synchronous axial system.

As shown in figure 18, one end of the second reduction gearing 423 is meshed with output shelf rotating shaft tooth 422c, and the other end is meshed with holder annular tooth 24.As shown in figure 17, the second reduction gearing 423 is positioned at below the first reduction gearing 421, and both are all meshed with holder annular tooth 24.

When output shelf 422 rotates, drive the second reduction gearing 423 to rotate, be subject to the reaction force of holder annular tooth 24 time the second reduction gearing 423 is rotated, make it rotate in holder annular tooth 24.And the second reduction gearing 423 is arranged on outflow cover for water 5, outflow cover for water 5 synchronous axial system will be driven when the second reduction gearing 423 is rotated, realize rotary water-out object.

The number of teeth due to the second reduction gearing 423 is greater than the number of teeth of output shelf rotating shaft tooth 422c, and therefore the rotating speed of the second reduction gearing 423 is less than the rotating speed of output shelf 422, and then makes the rotating speed of outflow cover for water 5 also be less than the rotating speed of output shelf 422.Namely, when external water stream is flowing at a high speed in water inlet lid 1, impeller 6 quick rotation, the first reduction gearing 421 through deceleration member 42 tentatively reduces rotating speed, again through the second reduction gearing 423 second time decelerating effect, finally make the rotary speed of outflow cover for water 5 reach the scope of use, make the water outlet rotary speed of shower apparatus 100, meet instructions for use.

As shown in figure 12, outflow cover for water 5 can be provided with three the second reduction gearing, 423, three the second reduction gearing 423 and be evenly distributed on outflow cover for water 5, make outflow cover for water 5 uniform force, improve the stability that outflow cover for water 5 rotates.

As shown in Figure 19-Figure 26, in the third embodiment of the present utility model, deceleration member 43 also comprises eccentric gear 434 and support 433, eccentric gear 434 is arranged on outflow cover for water 5, support 433 is arranged on eccentric gear 434, the outward flange of support 433 is connected with holder 2, and the middle part of support 433 is provided with rack ventilating hole 433a, the eccentric position of support 433 is also provided with the support connecting hole 433b for connecting eccentric gear 434.

The upper surface middle part of eccentric gear 434 is upwards extended with rotating shaft 434a on eccentric gear, the eccentric position of lower surface of eccentric gear 434 is extended with eccentric gear lower rotary shaft 434b downwards, and eccentric gear is provided with spacing between rotating shaft 434a and eccentric gear lower rotary shaft 434b.

Output shelf rotating shaft 432a is extended with downwards in the middle part of the lower surface of output shelf 432, the outer surface of output shelf rotating shaft 432a is provided with output shelf rotating shaft tooth 432c, output shelf rotating shaft 432a is through rack ventilating hole 433a, and output shelf rotating shaft tooth 432c is meshed with eccentric gear 434, the number of teeth of eccentric gear 434 is greater than the number of teeth of output shelf rotating shaft tooth 432c.On eccentric gear, rotating shaft 434a is arranged in support connecting hole 433b, outflow cover for water 5 is provided with chute 53, and eccentric gear lower rotary shaft 434b is arranged in chute 53, when eccentric gear 434 rotates, eccentric gear lower rotary shaft 434b comes and goes and slides in chute 53, makes outflow cover for water 5 reciprocating swing.

Support 433 is provided with the rack ventilating hole 433b passed through for current, ensures the smoothness that current circulate in shower apparatus 100.

As shown in Figure 12 and Figure 27, support 433 is provided with the first reduction gearing 431, first reduction gearing 431 one end is meshed with the rotating shaft external tooth of impeller shaft 62, the other end is meshed with the holder annular tooth 24 of holder 2, namely the function of the first reduction gearing 431 realizes preliminary decelerating effect, its operation principle is similar to the deceleration principle of the first reduction gearing 421 in the second embodiment, is not repeating herein.

After the first reduction gearing 431 is slowed down, the rotating speed of output shelf 432 is less than the rotating speed of impeller 6.And the number of teeth of the output shelf rotating shaft tooth 432c of output shelf rotating shaft 422a is less than the number of teeth of eccentric gear 434, therefore the rotating speed of eccentric gear 434 is less than the rotating speed of output shelf 432, and the second time achieving shower apparatus 100 is slowed down.

As shown in Figure 22-Figure 26, the outward flange of support 433 is connected with holder 2, and holder 2 is fixed, and therefore support 433 maintains static.On eccentric gear, rotating shaft 434a is positioned at the middle part of eccentric gear 434, and is inserted in support connecting hole 433b, and when output shelf rotating shaft 432a drives eccentric gear 434 to rotate, eccentric gear 434 rotating shaft 434a on eccentric gear rotates.Eccentric gear lower rotary shaft 434b is positioned at the eccentric position of lower surface of eccentric gear 434, certain spacing is there is in eccentric gear between rotating shaft 434a and eccentric gear lower rotary shaft 434b, when on eccentric gear, rotating shaft 434a rotates eccentric gear 434, eccentric gear lower rotary shaft 434b moves in a circle.Eccentric gear lower rotary shaft 434b is arranged in the chute 53 on outflow cover for water 5, when such eccentric gear 434 rotates, will drive the rotation of outflow cover for water 5.Because the spacing of rotating shaft 434a on eccentric gear and eccentric gear lower rotary shaft 434b is smaller, be not enough to make outflow cover for water 5 complete whole circular motion, just make outflow cover for water 5 do and periodically repeat oscillating motion.

Specifically, such as, before eccentric gear 434 rotation starts, eccentric gear lower rotary shaft 434b is inserted in chute 53, and is positioned at the left end of chute 53.Eccentric gear 434 is rotated clockwise to the process of 180 ° from 0 °, and eccentric gear lower rotary shaft 434b moves from chute 53 left end to right-hand member, drives outflow cover for water 5 to rotate simultaneously.Because chute 53 has certain length and width, when eccentric gear lower rotary shaft 434b rotates, could drive outflow cover for water 5 to rotate after the certain distance that needs to slide in chute 53, therefore the rotational angle of outflow cover for water 5 is less than the angle of eccentric gear 434 rotation.When eccentric gear 434 is rotated clockwise to the process of 360 ° from 180 °, eccentric gear lower rotary shaft 434b moves from chute 53 right-hand member to left end, and now eccentric gear 434 drives outflow cover for water 5 to reversely rotate, finally, eccentric gear 434 often rotates a circle, and outflow cover for water 5 swings back and forth once.

Above-mentioned eccentric gear 434 can arrange two, and outflow cover for water 5 arranges two chutes 53 accordingly, outflow cover for water 5 can be made like this to be subject to the thrust at two positions, make the more stable of its rotary oscillation.

The pendulum angle of above-mentioned outflow cover for water 5 is 10 °-60 °.Spacing on eccentric gear between rotating shaft 434a and eccentric gear lower rotary shaft 434b is larger, and the pendulum angle of outflow cover for water 5 is also larger, and the space of chute 53 also affects the pendulum angle of outflow cover for water 5 simultaneously.Space as chute 53 is larger, and the space that eccentric gear lower rotary shaft 434b moves at chute 53 is also larger, and the angle causing eccentric gear lower rotary shaft 434b to promote outflow cover for water 5 rotation like this will reduce.The pendulum angle generally setting out water cover 5 is 10 °-60 ° requirements that just can meet actual use.

In above-mentioned three kinds of embodiments, as shown in figure 12, ball 7 can be provided with between outflow cover for water 5 and drain pan 3, and between outflow cover for water 5 and holder 2, also can be provided with ball 7, the frictional force of outflow cover for water 5 in rotary course that ball 7 and ball 9 reduce, improve the rotating effect of outflow cover for water 5, and improve the service life of the shower apparatus 100 of the design.

In above-mentioned three kinds of embodiments, as shown in figure 12, between outflow cover for water 5 and drain pan 3, be provided with sealing ring 8.Sealing ring 8 improves the sealing between outflow cover for water 5 and drain pan 3, prevents current from flowing out from the gap of both junctions, improves the stable water outlet of the shower apparatus 100 of the design.

In above-mentioned three kinds of embodiments, the blade 61 of impeller 6 is in skewed, and the delivery port 12 of water inlet lid 1 is in tiltedly exporting shape, and the incline direction of delivery port 12 water outlet direction and blade 61 is perpendicular.Like this, after current are flowed out from delivery port 12, be applied with the thrust of a vertical direction to blade 61, and then impeller 6 rotates motion, finally improve the stability of the rotary water-out of the shower apparatus 100 of the design.

Above-described is only principle of the present utility model and preferred embodiment.It should be pointed out that for the person of ordinary skill of the art, on the basis of the utility model principle, other modification some can also be made, also should be considered as protection domain of the present utility model.

Claims (10)

1. the shower apparatus of a giving out water when rotating, comprise the opening-like drain pan in bottom, be configured in the holder on described drain pan and be configured in the water inlet lid on described holder, upper plenum is formed between described water inlet lid and described holder, lower cavity is formed between described drain pan and described holder, it is characterized in that

Described water inlet covers and is provided with water inlet, the inwall of described water inlet lid is provided with into water lid delivery port, described holder is at least provided with one for being communicated with the holder connecting hole of described upper plenum and described lower cavity, the impeller that can rotate is provided with in described upper plenum, the deceleration member be connected with described impeller and outflow cover for water is provided with in described lower cavity, described impeller can drive described deceleration member to rotate, and the output speed of described deceleration member is less than the rotating speed of described impeller, described deceleration member is connected with described outflow cover for water, and described outflow cover for water can be driven to rotate, described outflow cover for water is at least provided with an apopore.

2. the shower apparatus of giving out water when rotating according to claim 1, it is characterized in that, described deceleration member comprises eccentric bushing, Cycloidal Wheel and output shelf, the middle part of described Cycloidal Wheel is provided with the Cycloidal Wheel mesopore for installing described eccentric bushing, and described Cycloidal Wheel is also provided with the Cycloidal Wheel through hole passed through for current, the outward flange of described Cycloidal Wheel is provided with Cycloidal Wheel external tooth;

Impeller shaft is extended with downwards in the middle part of the lower surface of described impeller, the middle part of described holder is provided with holder mesopore, described impeller shaft is through described holder mesopore, and match with described eccentric bushing, the inwall of described holder is provided with pin tooth, and described Cycloidal Wheel external tooth matches with described pin tooth;

Described eccentric bushing is arranged in described Cycloidal Wheel mesopore, and described eccentric bushing can drive described Cycloidal Wheel along the described pin tooth rotation of described holder;

Described Cycloidal Wheel is arranged in described output shelf, and can drive described output shelf synchronous axial system, and described output shelf is connected with described outflow cover for water, and described output shelf can drive described outflow cover for water synchronous axial system.

3. the shower apparatus of giving out water when rotating according to claim 1, is characterized in that, described deceleration member comprises output shelf and is configured in the first reduction gearing in described output shelf, described output shelf is also provided with the output shelf through hole passed through for current;

Impeller shaft is extended with downwards in the middle part of the lower surface of described impeller, the outer surface of described impeller shaft is provided with rotating shaft external tooth, described impeller shaft is through described holder mesopore, and described rotating shaft external tooth is meshed with described first reduction gearing, the number of teeth of described rotating shaft external tooth is less than the number of teeth of described first reduction gearing;

The inwall of described holder is provided with holder annular tooth, and described first reduction gearing is meshed with described holder annular tooth;

Described first reduction gearing can be rotated in described holder annular tooth, and drives described output shelf synchronous axial system, and described output shelf is connected with described outflow cover for water, and described output shelf can drive described outflow cover for water synchronous axial system.

4. the shower apparatus of giving out water when rotating according to claim 3, is characterized in that, described deceleration member also comprises the second reduction gearing, and described second reduction gearing is between described output shelf and described outflow cover for water;

Output shelf rotating shaft is extended with downwards in the middle part of the lower surface of described output shelf, the outer surface of described output shelf rotating shaft is provided with output shelf rotating shaft tooth, described output shelf rotating shaft tooth is meshed with described second reduction gearing, and the number of teeth of described second reduction gearing is greater than the number of teeth of described output shelf rotating shaft tooth;

Described second reduction gearing is also meshed with described holder annular tooth, and described second reduction gearing can be rotated and can drive described outflow cover for water synchronous axial system in described holder annular tooth.

5. the shower apparatus of giving out water when rotating according to claim 3, it is characterized in that, described deceleration member also comprises eccentric gear and support, described eccentric gear is arranged on described outflow cover for water, described Bracket setting is on described eccentric gear, the outward flange of described support is connected with described holder, and the middle part of described support is provided with rack ventilating hole, the eccentric position of described support is also provided with the support connecting hole for connecting eccentric gear;

The upper surface middle part of described eccentric gear is upwards extended with rotating shaft on eccentric gear, the eccentric position of lower surface of described eccentric gear is extended with eccentric gear lower rotary shaft downwards, described eccentric gear is provided with spacing between rotating shaft and described eccentric gear lower rotary shaft, and on described eccentric gear, rotating shaft is arranged in described support connecting hole;

Output shelf rotating shaft is extended with downwards in the middle part of the lower surface of described output shelf, the outer surface of described output shelf rotating shaft is provided with output shelf rotating shaft tooth, described output shelf rotating shaft is through described rack ventilating hole, and described output shelf rotating shaft tooth is meshed with described eccentric gear, the number of teeth of described eccentric gear is greater than the number of teeth of described output shelf rotating shaft tooth;

Described outflow cover for water is provided with chute, and described eccentric gear lower rotary shaft is arranged in described chute, drives described eccentric gear lower rotary shaft to come and go in described chute and slides, make described outflow cover for water reciprocating swing when described eccentric gear rotates.

6. the shower apparatus of giving out water when rotating according to claim 5, is characterized in that, the pendulum angle of described outflow cover for water is 10 °-60 °.

7. the shower apparatus of the giving out water when rotating according to Claims 2 or 3, is characterized in that, is provided with ball between described outflow cover for water and described drain pan.

8. the shower apparatus of the giving out water when rotating according to Claims 2 or 3, is characterized in that, is provided with ball between described outflow cover for water and described holder.

9. the shower apparatus of the giving out water when rotating according to Claims 2 or 3, is characterized in that, is provided with sealing ring between described outflow cover for water and described drain pan.

10. the shower apparatus of giving out water when rotating according to claim 1, is characterized in that, the blade of described impeller is skewed, and the delivery port of described water inlet lid is in tiltedly exporting shape, and the incline direction of described delivery port water outlet direction and described blade is perpendicular.