CN115154233A - Massage device, massage waterway system and massage bathtub based on hydraulic drive - Google Patents

Abstract

The invention discloses a massage device based on hydraulic drive, a massage waterway system and a massage bathtub, which comprise a water inlet, a drive assembly, a transmission assembly and a massage head, wherein the drive assembly comprises a turbine drive disk, a double-layer water inlet channel structure and an output gear are arranged on the turbine drive disk, the transmission assembly comprises a reduction gear set and a gear cavity, the reduction gear set is arranged in the gear cavity, the output gear is in transmission connection with the reduction gear set, the reduction gear set is in transmission connection with the massage head, different water inlets are communicated with different layers in the double-layer water inlet channel structure, drive waterways in different directions are formed in the double-layer water inlet channel structure by switching the communication of waterway pipelines and different water inlets, the output gear is driven to rotate in different directions, the massage head can be replaced according to a massage part, the massage head is driven to rotate by adopting a hydraulic drive mode, the waterway is conducted to a water outlet hole at the top of the massage head to flow out, and the hydrotherapy effect is realized.

Description

Massage device, massage waterway system and massage bathtub based on hydraulic drive

Technical Field

The invention relates to the field of bathrooms, in particular to a massage device, a massage waterway system and a massage bathtub based on hydraulic drive.

Background

The massage bathtub in the market at present mainly adopts a water flow sprayed by a circulating water pump to realize hydraulic massage; the partial differential massage means are sound wave massage and mechanical massage, the mechanical massage means are relatively few, and the existing electric massage machine cores are basically adopted for implantation grafting, so that the mechanical massage is realized.

The existing hydraulic massage bathtub mainly pumps water circularly through a water pump and sprays the water on body parts, the massage means is relatively single, the force is relatively less compared with mechanical kneading or beating, and the massage on neck and feet still belongs to a relatively missing state; neck massage part just needs to pass through the water pump, and electric drive just can realize water conservancy massage, and two centre of rotation distances of massage core are fixed, can't knead the special customization of centre-to-centre spacing according to different user's demands, and have risks such as electric leakage.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a massage device, a massage waterway system and a massage bathtub based on hydraulic drive.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the utility model provides a massage device based on water drive, including the water inlet, drive assembly and massage head, drive assembly includes the turbine drive-disc, be equipped with double-deck inhalant canal structure and output gear on the turbine drive-disc, and its inside water clearance that is equipped with, drive assembly includes reduction gear group and gear chamber, reduction gear group sets up in the gear chamber, be equipped with the water hole on the gear chamber, output gear is connected with the reduction gear group transmission, reduction gear group is connected with the first transmission of massage, the overhead apopore that is equipped with of massage, different water inlets and different layer intercommunication in the double-deck inhalant canal structure, make the drive water route that forms the not equidirectional in double-deck inhalant canal structure through switching on of water route pipeline and different water inlets, drive output gear along not equidirectional rotation, and drive reduction gear group drives the massage head and rotate along not equidirectional, and the water in the drive water route flows out from the overhead apopore of massage through water clearance and water hole.

As preferred, the turbine driving disk includes turbine dish and turbine module, and the turbine module is installed in the turbine dish, is equipped with the inhalant canal of equidirectional on the turbine dish, and the different water inlets are connected with the inhalant canal of equidirectional to constitute double-deck inhalant canal structure with the turbine module, make the turbine module rotate along different directions under the drive water route effect of equidirectional.

Preferably, the turbine module comprises a turbine, a turbine base and a turbine rotating shaft, the output gear is arranged at the top of the turbine, the turbine is fixedly connected with the turbine base, and the turbine base are fixed on the turbine disc through the turbine rotating shaft.

Preferably, the water inlet channel comprises a first water inlet channel and a second water inlet channel which are respectively arranged at the lower part and the upper part of the side wall of the turbine disc, and the outer wall of the turbine disc is provided with a partition ring for partitioning the first water inlet channel from the second water inlet channel.

Preferably, the water inlet is including locating the first water inlet and the second water inlet of different positions, and first water inlet and second water inlet switch on with first water channel and second water channel respectively, get into first water channel or second water channel from first water inlet or second water inlet through switching over into water for the turbine module is along clockwise or anticlockwise rotation.

Preferably, the reduction gear set comprises a plurality of secondary gears, each secondary gear comprises a large gear and a small gear, the output gear is in transmission connection with the large gear, and a gear pair combination is formed among the plurality of secondary gear pieces through the large gear and the small gear.

Preferably, the massage head is provided with an output shaft and a massage part, the massage part comprises a fixing part and a massage rotating head, the massage rotating head is arranged on the gear cavity through the fixing part, the output shaft is provided with a water passage and a mounting structure connected with the massage rotating head, the output shaft is fixedly connected with the pinion of the reduction gear set and the massage rotating head and drives the massage part to rotate along different directions, and the massage part is provided with a water outlet hole communicated with the water passage.

Preferably, the massage head comprises a foot massage head, the massage head comprises a foot massage rotary head, the foot massage rotary head comprises an inner wheel and an outer wheel, the inner wheel is in transmission connection with the outer wheel and enables the inner wheel and the outer wheel to rotate in different directions respectively, the output shaft comprises a foot massage output shaft, and the foot massage output shaft is fixedly connected with the inner wheel and drives the inner wheel to rotate and simultaneously drives the outer wheel to rotate.

Preferably, the inner wheel is provided with rolling balls, first salient points and water outlet holes, and the outer wheel is provided with second salient points and water outlet holes.

Preferably, the massage head comprises a neck massage head, the output shaft comprises a neck massage output shaft, the massage rotary head comprises a neck massage rotary head, and the neck massage rotary head is fixedly connected with the neck massage output shaft.

Preferably, the neck massage head further comprises a headrest assembly, the headrest assembly comprises a left headrest, a right headrest and a connecting piece arranged between the left headrest and the right headrest, the connecting piece is used for fixing the left headrest and the right headrest, massage covers covering the neck massage heads are arranged on the left headrest and the right headrest, and drain holes are formed in the massage covers.

The utility model provides a massage bathtub's massage waterway system, includes the waterway pipeline, adjusts the temperature diverter valve and as above-mentioned massage device based on hydraulic drive, different waterway pipelines are connected and drive massage head along the not equidirectional rotation with massage device's different water inlets, and the waterway pipeline is connected with the diverter valve that adjusts the temperature, through adjusting the diverter valve that adjusts the temperature in order to switch on or cut off the play water route between different waterway pipelines and the different water inlets of massage device to the temperature in play water route is controlled.

Preferably, the waterway pipeline comprises a first pipeline and a second pipeline, the water inlet comprises a first water inlet and a second water inlet, and the water outlet waterway comprises a first water outlet waterway and a second water outlet waterway.

Preferably, the massage devices comprise at least 2 neck massage devices and N foot massage devices, N is an even number, first water inlets of one neck massage device and one group of N/2 foot massage devices are connected with the first pipeline, and second water inlets of the other neck massage device and the other group of N/2 foot massage devices are connected with the first pipeline to form a first water outlet waterway; the second water inlets of one neck massage device and one group of N/2 foot massage devices are connected with a second pipeline, and the first water inlets of the other neck massage device and the other group of N/2 foot massage devices are connected with the second pipeline to form a second water outlet waterway.

Preferably, the temperature-regulating switching valve is provided with a first water outlet, a second water outlet, a cold water inlet, a hot water inlet, a valve body and a switching knob, the switching knob is connected with the valve body, the first water outlet and the second water outlet, the cold water inlet, the hot water inlet and the valve body are respectively connected with the first pipeline and the second pipeline, the state of the valve body is switched by adjusting the switching knob to switch on or cut off a water path between the cold water inlet and/or the hot water inlet and the first water outlet or the second water outlet, and the water inflow of the cold water inlet and/or the hot water inlet in the valve body is regulated.

A massage bathtub comprises a bathtub body and a massage waterway system of the massage bathtub, wherein the massage waterway system is installed on the bathtub body, the bathtub body comprises a head supporting part and a foot supporting part, and a massage device comprises a neck massage device and a foot massage device which are respectively arranged on the head supporting part and the foot supporting part.

Compared with the prior art, the invention has the beneficial effects that:

(1) The massage device based on hydraulic drive of the invention adopts a double-layer water inlet channel structure to realize the rotation of the hydraulic drive massage head, does not need to use electric power, has moderate rotating massage force, can replace the massage head according to different massage parts, is more convenient for production and reduces the cost.

(2) The neck massage part of the massage device based on hydraulic drive is provided with the headrest component, so that the massage device can adapt to the massage device with the center distance adjusted within a certain range, and the neck comfort customization of part of users is realized.

(3) The massage waterway system of the massage bathtub can realize the switching in different directions and the water temperature adjustment, and can realize the rotation of the planet wheels at the feet and the single-head rotation of the neck by corresponding different output shafts to different massage heads; the positive and negative rotation switching of the whole machine is realized through a temperature-adjusting switching valve; when the water is fed into the water tank at a certain water temperature, the water flow can spray the neck and feet of a user after acting is finished, the hydrotherapy is synchronously realized, the structure is reliable, and the use is convenient.

(4) The massage bathtub can simultaneously massage feet and neck, has reasonable structural design and comfortable use, and effectively improves the experience of users.

Drawings

FIG. 1 is a schematic view of a hydraulically driven massage device according to an embodiment of the present application;

FIG. 2 is an exploded view of a hydraulically driven massage device according to an embodiment of the present application;

FIG. 3 is an exploded view of the hydraulic drive section and output shaft of a hydraulically driven massage device in accordance with an embodiment of the present application;

FIG. 4 is a cross-sectional view of a first water inlet of a hydraulically driven based massage device in communication with a hydraulically driven portion of an embodiment of the present application;

FIG. 5 is a cross-sectional view of a lower portion of a turbine drive disk of a hydraulically driven massage device in accordance with an embodiment of the present application;

FIG. 6 is a cross-sectional view of a second water inlet of the hydraulically driven based massage device of an embodiment of the present application in communication with a hydraulically driven portion;

FIG. 7 is a cross-sectional view of an upper portion of a turbine drive disk of a hydraulically driven massage device in accordance with an embodiment of the present application;

fig. 8 is a perspective view and a side view of a turbine disk of a hydraulically driven massage device in accordance with an embodiment of the present application, with the left side in perspective view and the right side in side view;

fig. 9 is a sectional view of the lower part and the lower part of a turbine disk of a hydraulic drive-based massage apparatus according to an embodiment of the present application, the left side being a sectional view of the lower part of the turbine disk, and the right side being a sectional view of the upper part of the turbine disk;

FIG. 10 is a schematic view of a turbine module of a hydrodynamically driven massage device in accordance with an embodiment of the present application;

fig. 11 is an exploded view of a turbine module of a hydro-driven massage device in accordance with an embodiment of the present application;

FIG. 12 is a schematic view of a hydrodynamically driven massage device based foot massage device installed in a bathtub in accordance with an embodiment of the present application;

FIG. 13 is a schematic illustration of the output gear and reduction gear set transmission of a hydro-drive based massage device of an embodiment of the present application;

FIG. 14 is a schematic illustration of a reduction gear set transmission of a hydraulically driven massage device in accordance with an embodiment of the present application;

FIG. 15 is a schematic view of the transmission between the output gear, the reduction gear set and the output shaft of the hydro-drive based massage device of the embodiments of the present application;

FIG. 16 is a schematic view of the connection of the foot massage output shaft of the hydraulically driven massage device of the embodiment of the present application to the foot massage head;

FIG. 17 is an exploded view of the foot massage output shaft and the foot massage head of the hydraulically driven massage device of the present application;

FIG. 18 is a schematic view of the foot massage output shaft and foot massage head mounting of the hydraulically driven massage device of an embodiment of the present application;

fig. 19 is a schematic view of the rotation of the inner and outer wheels of a foot massage head of a hydraulically driven massage device in accordance with an embodiment of the present application;

fig. 20 is an exploded view of a foot massage head of a hydraulically driven massage device in accordance with an embodiment of the present application;

FIG. 21 is a schematic view of a neck massage device based on a hydraulically driven massage device of an embodiment of the present application installed in a bathtub;

fig. 22 is a schematic view of a neck massage device of a hydraulically driven massage device in accordance with an embodiment of the present application;

fig. 23 is a top view of a neck massage device of a hydraulically driven massage device in accordance with an embodiment of the present application;

fig. 24 is an exploded view of a neck massage device of a hydraulically driven massage device in accordance with an embodiment of the present application;

fig. 25 is a schematic view of a neck massage output shaft of a hydraulically driven massage device in accordance with an embodiment of the present application;

fig. 26 is an exploded view of a neck massage output shaft of a hydraulically driven massage device in accordance with an embodiment of the present application;

fig. 27 is a schematic view of the neck massage output shaft of the hydraulic drive based massage device of the present application coupled to a reduction gear set;

fig. 28 is a schematic view of a neck massaging swivel of a hydraulically driven massaging device in accordance with an embodiment of the present application;

fig. 29 is a schematic view of a head rest assembly of a hydraulically driven massage device of an embodiment of the present application;

fig. 30 is an exploded view of a headrest assembly of a hydraulically actuated massage device according to an embodiment of the present application;

FIG. 31 is a first schematic view of a massage waterway system of a massage bathtub in accordance with an embodiment of the present application;

fig. 32 is a schematic view illustrating a connection between a water inlet of a massage device in a first water outlet waterway of a massage waterway system of a massage bathtub according to an embodiment of the present application and a temperature-adjusting switching valve;

FIG. 33 is a second schematic view of a whirlpool waterway system of the whirlpool bathtub of the present application;

fig. 34 is a schematic view illustrating a connection between a water inlet of a massage device in a second water outlet waterway of the massage waterway system of the massage bathtub according to the embodiment of the present application and a temperature-adjusting switching valve;

FIG. 35 is a schematic view of a thermostatic switch valve of the massage water circuit system of the whirlpool of the present application;

FIG. 36 is a schematic view of a thermostatic switch valve of a massage water circuit system of a massage bathtub according to an embodiment of the present application installed in the bathtub;

FIG. 37 is a schematic view of the temperature adjustment switch valve of the massage water circuit system of the massage bathtub in the OFF position according to the embodiment of the present application;

fig. 38 is a schematic view showing the cold water inlet and the hot water inlet of the temperature-adjusting switching valve of the massage water path system of the massage bathtub in the OFF position and the second water outlet path being blocked;

fig. 39 is a schematic view showing the cold water inlet and the first water outlet waterway of the massage waterway system of the massage bathtub according to the embodiment of the present application being cut OFF with the temperature-adjusting switching valve in the OFF position;

fig. 40 is a schematic view showing a hot water inlet and a first water outlet of the temperature-adjusting switching valve of the massage water path system of the massage bathtub according to the embodiment of the present application being cut OFF in the OFF position;

FIG. 41 is a schematic view of a temperature-regulating switch valve of a massage water circuit system of a massage bathtub in section I according to an embodiment of the present application;

fig. 42 is a schematic view of a valve core structure of a temperature-adjusting switching valve in a region i of a massage water path system of a massage bathtub according to an embodiment of the present application;

fig. 43 is a schematic view illustrating a cold water inlet of a temperature-adjusting switching valve in a region i of a massage water path system of a massage bathtub according to an embodiment of the present application being communicated with a first water outlet path;

fig. 44 is a schematic view illustrating a hot water inlet of a temperature-adjusting switching valve of a massage water path system of a massage bathtub according to an embodiment of the present application in communication with a first water outlet path;

FIG. 45 is a schematic view of a thermostatic switch valve of the massage water circuit system of the whirlpool basin in section II of the present application;

fig. 46 is a schematic view illustrating a cold water inlet and a second water outlet of a temperature-adjusting switching valve in a region ii of a massage water path system of a massage bathtub according to an embodiment of the present application;

fig. 47 is a schematic view illustrating a hot water inlet and a second water outlet of the temperature-adjusting switching valve of the massage water path system of the massage bathtub according to the embodiment of the present application, which are located in section ii;

FIG. 48 is an exploded view of a temperature control switch valve of the massage water circuit system of the massage bathtub according to the embodiment of the present application;

fig. 49 is an exploded view of a valve body of a temperature-adjusting switching valve of a massage water path system of a massage bathtub according to an embodiment of the present application;

FIG. 50 is a schematic view of the massage waterway system of the massage bathtub in accordance with the embodiment of the present application installed on the massage body;

FIG. 51 is a schematic view of a whirlpool tub of an embodiment of the present application;

FIG. 52 is a schematic view of the angular dimensions of a whirlpool tub in accordance with an embodiment of the present application;

FIG. 53 is a schematic size view of a whirlpool tub according to an embodiment of the present application;

reference numerals: 101. a first water inlet; 102. a second water inlet; 201. a turbine drive disk; 202. a turbine disk; 203. a turbine module; 2021. a first water inlet channel; 2022. a second water inlet channel; 2023. a blocking ring; 204. a turbine; 205. a turbine base; 206. a turbine shaft; 207. an output gear; 208. a water passing gap; 209. locking the nut; 301. a reduction gear set; 302. a gear cavity; 303. water passing holes; 3021. a housing; 3022. a seal ring; 3023. a limiting bracket; 3024. a limiting shaft; 3025. a gear shaft; 3026. a VA sealing ring; 3027. rubbing the flat pad; 3028. c-shaped hoops; 3029. a water inlet body; 401. a foot massage head; 402. a neck massage head; 403. a foot massage output shaft; 404. a neck massage output shaft; 405. rotating the foot massage head; 406. rotating head for neck massage; 407. a water outlet hole; 501. a foot massage locking nut; 502. a neck massage fixing sleeve; 4051. an inner wheel; 4052. an outer wheel; 4053. a transition gear; 4054. a rolling ball; 4055. a first bump; 4056. a second bump; 4057. a rotary plate rack; 4058. clamping the nut; 601. a headrest assembly; 602. a left headrest; 603. a right headrest; 604. a connecting member; 605. a drain hole; 701. a waterway pipeline; 7011. a first T-shaped tee; 7012. a first cross; 7013. a second cross; 7014. a first L-shaped tee; 7015. a second L-shaped tee; 7016. a third L-shaped tee; 7017. a fourth L-shaped tee; 7018. a fifth L-shaped tee joint; 703. a temperature-adjusting switching valve; 706. a first foot massage device; 707. a second foot massaging device; 708. a third foot massaging device; 709. a fourth foot massaging device; 710. a first neck massaging device; 711. a second neck massaging device; 7031. a first water outlet waterway; 7032. a second water outlet waterway; 7033. a cold water inlet; 7034. a hot water inlet; 7035. switching a knob; 7036. a valve body; 7037. a valve core; 7038. a valve core fixing nut; 7039. a valve housing; 70371. a base; 70372. a valve stem; 70373. a moving plate; 70374. a still sheet; 70375. a spring; 70376. a bayonet lock; 70377. a support; 70378. c-shaped buckles; 70379. a seal ring; 801. a bathtub body.

Detailed Description

The invention is further explained below with reference to the figures and the specific embodiments. The drawings are merely schematic representations, the specific proportions of which may be adjusted in accordance with design requirements, for a better understanding of the present invention. The definitions of the top and bottom relationships of the relative elements and the front and back sides of the figures described herein are understood by those skilled in the art to refer to the relative positions of the components and thus all of the components may be flipped to present the same components and still fall within the scope of the present disclosure.

Referring to fig. 1-30, an embodiment of the present application provides a massage device based on hydraulic drive, including a water inlet, a driving assembly, a transmission assembly and a massage head, the massage head is provided with an output shaft and a massage component, the massage component includes a fixing member and a massage rotating head, the output shaft is provided with a water channel and a mounting structure fixedly connected with the massage component, the massage head is fixedly connected with the transmission assembly through the mounting structure and the fixing member, the massage device can be divided into a neck massage device and a foot massage device according to an action part, the massage heads have different structures due to different massage parts, the massage heads can be divided into a foot massage head 401 and a neck massage head 402 according to the massage parts, correspondingly, the output shaft includes a foot massage output shaft 403 and a neck massage output shaft 404, the two mainly distinguish whether a screw column is added inside, both have a flat structure, so as to realize connection with the massage head, the central part is provided with a water through hole 303, the bottom part is provided with a flat structure, and is inserted into a small gear flat groove; the top end surface is provided with a friction flat pad 3027 and a VA sealing ring 3026 to realize rotary sealing and stable rotation, and the massage rotary head comprises a foot massage rotary head 405 and a neck massage rotary head 406. The massage device is driven by water power, rotation is taken as an expression form, the water inlet pressure is recommended to be more than or equal to 0.25Mpa, the water power driving part of the massage device is universal, the exchange of various massage heads can be realized, the massage in various regions can be realized, the massage device can be synchronously used as a massage device in the regions of legs, waist, back and the like after the massage heads are replaced, the center distance of the massage device can be adjusted, the center distance between the massage devices is not limited by the center distance of a traditional massage machine core, and the massage with the special center distance can be customized according to different user requirements; the water is discharged during the massage process of the massage device, and the discharged water can realize water flushing on the neck and the feet of the user, so that the temperature and the impact feeling are provided.

Specifically, referring to fig. 3-11, the structure of the hydraulic drive section is as follows: drive assembly includes turbine driving disc 201, be equipped with double-deck inhalant canal structure and output gear 207 on turbine driving disc 201, and its inside is equipped with water clearance 208, drive assembly includes reduction gear set 301 and gear chamber 302, reduction gear set 301 sets up in gear chamber 302, be equipped with water hole 303 on the gear chamber 302, output gear 207 is connected with reduction gear set 301 transmission, reduction gear set 301 is connected with the first transmission of massage, be equipped with apopore 407 on the massage head, different water inlets communicate with different layers in the double-deck inhalant canal structure, make the drive water route of different directions in double-deck inhalant canal structure through switching on of waterway pipeline 701 and different water inlets, drive output gear 207 and rotate along different directions, and drive reduction gear set 301 drives the massage head and rotate along different directions, and the water in the drive water route flows out from the first apopore 407 of massage through water clearance 208 and water hole 303. Therefore, water enters from different water inlets to different layers in the double-layer water inlet channel structure to form driving water paths in different directions, hydraulic driving is realized, the reduction gear set 301 is driven to rotate, and lower rotating speed and enough rotating torque are provided for the massage head.

In specific embodiment, turbine driving disc 201 includes turbine disc 202 and turbine module 203, and turbine module 203 installs in turbine disc 202, is equipped with the inhalant canal of equidirectional on the turbine disc 202, and different water inlets are connected with the inhalant canal of equidirectional to constitute double-deck inhalant canal structure with turbine module 203, make turbine module 203 rotate along different directions under the drive water route effect of equidirectional. Specifically, the water inlet passage includes a first water inlet passage 2021 and a second water inlet passage 2022 respectively disposed at the lower portion and the upper portion of the sidewall of the turbine disc 202, and a partition ring 2023 is disposed on the outer wall of the turbine disc 202 to partition the first water inlet passage 2021 from the second water inlet passage 2022. The upper and lower portion of turbine disc 202 is equipped with the inhalant canal of certain quantity area certain angle, and the inhalant canal opposite direction of upper and lower portion, clockwise and anticlockwise rivers can be realized respectively after the rivers of different inhalant canals get into, is equipped with in the middle of the turbine disc 202 and cuts off ring 2023, avoids the equal inhalant canal of difference to intake. Specifically, the first water inlet channel 2021 is a clockwise water inlet channel and forms a clockwise water flow impact direction, and the second water inlet channel 2022 is a counterclockwise water inlet channel and forms a counterclockwise water flow impact direction. The water inlets include a first water inlet 101 and a second water inlet 102 which are arranged at different positions, the first water inlet 101 and the second water inlet 102 are respectively communicated with the first water inlet channel 2021 and the second water inlet channel 2022, and the inlet water enters the first water inlet channel 2021 or the second water inlet channel 2022 from the first water inlet 101 or the second water inlet 102 by switching, so that the turbine module 203 rotates clockwise or counterclockwise. Different water inlet channels correspond to different water inlet directions, so that the rotation direction of the turbine module 203 after water enters the turbine driving disc 201 is provided. Specifically, the turbine module 203 includes a turbine 204, a turbine base 205 and a turbine shaft 206, the output gear 207 is disposed at the top of the turbine 204, the turbine 204 is fixedly connected to the turbine base 205, and the turbine 204 and the turbine base 205 are fixed to the turbine disc 202 through the turbine shaft 206. Turbine 204 passes through the effective turbine 204 chamber of screens connection formation with turbine base 205, and is specific, turbine 204 bottom is equipped with the turbine 204 piece, be equipped with turbine 204 piece inserting groove on the turbine base 205, turbine 204 piece is pegged graft in turbine 204 piece inserting groove, form complete confined turbine 204 structure, turbine 204 rotates under the water impact state, and drive output gear 207 and rotate, turbine pivot 206 further with output gear 207, turbine 204 and turbine base 205 fix, avoid turbine 204 to rotate the in-process and take place the skew, and stability is improved. In one embodiment, the first water inlet 101 is arranged below the turbine disc 202, communicates with the lower part of the turbine disc 202 and is provided with a bottom gap, a radial gap exists between the lower part of the turbine disc 202 and the gear cavity 302, water flows into the first water inlet channel 2021 at the lower part of the turbine disc 202 through the bottom gap and the radial gap, and the turbine 204 is driven by the water flows to rotate clockwise; the second water inlet 102 is disposed at a side of the turbine disc 202 and is communicated with the first water inlet channel 2021 at the upper part of the turbine disc 202, and water flows from the second water inlet 102, passes through a gap between the turbine disc 202 and the gear chamber 302, and enters the second water inlet channel 2022 at the upper part of the turbine disc 202. The driving water ways in different directions drive the turbine 204 to rotate, the top of the turbine 204 is provided with an output gear 207 which can effectively transmit the rotation to the reduction gear set 301, and the output shaft can rotate 360 degrees under the driving of the reduction gear set 301.

Specifically, the water inlet sets up on water inlet body 3029, adopt foot massage lock nut 501 fixed connection between water inlet body 3029 and the gear chamber 302, gear chamber 302 top is equipped with casing 3021, it is sealed to adopt sealing washer 3022 between gear chamber 302 top and the casing 3021, a plurality of secondary gears of gear chamber 302 internally mounted, the secondary gear passes through spacing support 3023, C type clamp 3028, spacing axle 3024 and gear revolve 3025 are fixed in gear chamber 302, fixed connection between the pinion of output shaft and secondary gear, and be equipped with VA sealing washer 3026 and friction flat pad 3027.

In a specific embodiment, referring to fig. 15, the reduction gear set 301 comprises a plurality of secondary gears, the secondary gears comprise a bull gear and a pinion gear, the output gear 207 is in transmission connection with the bull gear, and a plurality of secondary gear members form a gear pair combination through the bull gear and the pinion gear. In order to reduce the investment of the mold, a plurality of secondary gears with the same parameters are adopted to form a gear pair combination to form a reduction gear set 301, the secondary gears and the output gear 207 of the turbine driving disk 201 form a gear pair, at the moment, the size of the secondary gears is larger than that of the output gear 207 to form a reduction ratio, the torque is increased, the gear modulus of the output gear 207 and the pinion of the secondary gears is assumed to be m, the gear tooth number is Z1, the gear modulus of the bull gear of the secondary gears is m, the gear tooth number is Z2, and the gear pair is matched as follows: c1= m (Z1 + Z2)/2; c1 is the center distance between the output gear 207 or pinion gear and the bull gear in the gear pair. Reduction gear set 301 is formed by the combination of a certain number of secondary gear, forms certain reduction ratio, and the increase rotates the moment of torsion, still is equipped with a plurality of gear shafts in the gear chamber 302 for fixed a plurality of secondary gear, ensure that the gear can not take place the displacement in-process of rotating. The output shaft is fixedly connected with the pinion of the reduction gear set 301 and the massage component, and drives the massage component to rotate along different directions, and the massage component is provided with a water outlet 407 communicated with the water channel. The rivers get into from first water inlet 101 or second water inlet 102, flow in turbine dish 202, form the rivers that have a certain direction, promote turbine module 203 and rotate, turbine 204 upper portion is equipped with output gear 207, form effective gear pair with reduction gear set 301, reduce the rotational speed through reduction gear set 301, improve turning moment, through output shaft output turning moment, thereby it rotates to drive the massage head, gear chamber 302 bottom is equipped with water hole 303, inside rivers flow into the bathtub through water clearance 208 and water hole 303 through apopore 407 at massage head top, can be to user's foot or neck rivers impact, thereby bring massage and hydrotherapy effect.

In a specific embodiment, referring to fig. 16-20, the massage rotary head is mounted on the gear cavity 302 by a fixing member, for example, a foot massage device, the foot massage rotary head 401 is generally provided with an even number, the fixing member comprises a foot massage lock nut 501 and a double-layer sealing ring 3022, the foot massage rotary head 405 is fixedly connected with the housing 3021 at the top of the gear cavity 302 by the foot massage lock nut 501 and the double-layer sealing ring 3022, the foot massage rotary head 405 comprises an inner wheel 4051 and an outer wheel 4052, the inner wheel 4051 and the outer wheel 4052 are mounted on the rotary disk rack 4057 and are fixed by a clamping nut 4058, the inner wheel 4051 is in transmission connection with the outer wheel 4052 and make the inner wheel 4051 and the outer wheel 4052 rotate in different directions, respectively, and the foot massage output shaft 403 is fixedly connected with the inner wheel 4051 and drives the outer wheel 4052 to rotate while driving the inner wheel 4051 to rotate. The inner wheel 4051 is provided with rolling balls 4054, first bumps 4055 and water outlet 407, and the outer wheel 4052 is provided with second bumps 4056 and water outlet 407. Specifically, foreign steamer 4052 can rotate and its be equipped with the internal tooth structure by the fixed part relatively, interior wheel 4051 rotates to cup joint in foreign steamer 4052 and it is equipped with the external tooth structure, be equipped with transition gear 4053 between interior wheel 4051 and the foreign steamer 4052, transition gear 4053 and internal tooth structure pressfitting and with the external tooth structure meshing cooperation, the external tooth structure is with output shaft rigid coupling mutually, the output shaft rotates and drives interior wheel 4051 and rotate and drive transition gear 4053 counter-rotation through the meshing cooperation of external tooth structure and transition gear 4053, and the pressfitting cooperation through transition gear 4053 and internal tooth structure drives foreign steamer 4052 counter-rotation. The inner wheel 4051 comprises an inner wheel 4051 shell 3021 provided with a first protrusion and a water outlet 407, the outer gear structure is fixedly connected below the inner wheel 4051 shell 3021, the foot massage output shaft 403 is fixedly connected below the outer gear structure, a clamping groove is formed in the top of the foot massage output shaft 403, transmission rotation torque is transmitted to the inner wheel 4051 through insertion fit, and the water outlet 407 is formed in the bottom of the inner wheel 4051. The inner wheel 4051 housing 3021 has an opening in the top surface thereof, a roller ball 4054 having a diameter greater than the diameter of the opening, and the roller ball 4054 is rotatably mounted on the inner wheel 4051 housing 3021 and extends through the opening out of the inner wheel 4051 housing 3021. Outer wheel 4052 is including being equipped with the outer wheel 4052 casing 3021 of second arch and apopore 407, and the through-hole has been seted up to outer wheel 4052 casing 3021, and the internal tooth structure sets up in through-hole department, and interior wheel 4051 casing 3021 and external tooth structure are located the through-hole, and internal tooth structure, external tooth structure and transition gear 4053 are located the coplanar. Each internal tooth structure and external tooth structure correspond two transition gears 4053, and internal tooth structure and external tooth structure are arranged for being concentric, and two transition gears 4053 are located the both sides of external tooth structure respectively, and the center of two transition gears 4053, the center of external tooth structure are located collinear. Therefore, the planetary gears having different turning directions are formed between the inner gear 4051 and the outer gear 4052, and the foot can be massaged.

Specifically, water enters from the first water inlet 101, and enters the first water inlet channel 2021 at the lower part of the turbine disc 202, so that the internal turbine 204 rotates clockwise and the output gear 207 at the top of the turbine 204 rotates to drive the reduction gear set 301 to rotate, the rotation speed is reduced, the rotation torque is increased, and then the rotation torque is output to the output shaft through the pinion, so that the output shaft rotates clockwise, the output shaft is effectively connected with the inner wheel 4051 of the foot massage head 401, so that the inner wheel 4051 rotates clockwise, and the outer wheel 4052 rotates counterclockwise (reversely) under the conversion of the planet wheel pair; after pushing the turbine 204 to rotate, the water flows in through the water passing gap 208 in the gear cavity 302, passes through the water passing holes 303 at the top of the gear cavity 302, enters the water flow channel of the foot massage head 401, and finally acts on the foot position of the user;

water enters from the second water inlet 102, and water flow enters the second water inlet channel 2022 at the upper part of the turbine disc 202, so that the internal turbine 204 rotates anticlockwise, the output gear 207 at the top of the turbine 204 rotates to drive the reduction gear set 301 to rotate, the rotating speed is reduced, and after the rotating torque is increased, the water is output to an output shaft through a pinion; the output shaft is rotated anticlockwise, after the output shaft is effectively connected with the inner wheel 4051 of the foot massage head 401, the inner wheel 4051 is rotated anticlockwise, and the outer wheel 4052 plate is rotated anticlockwise (positive) under the conversion of the planetary wheel pair; after the turbine 204 is pushed to rotate, the water flows in through the water passing gap 208 inside the gear cavity 302, passes through the water passing holes 303 at the top of the gear cavity 302, enters the water flow channel of the foot massage head 401, and finally acts on the position of the foot of the user.

In a specific embodiment, referring to fig. 21-28, for example, the neck massage device, the neck massage heads 402 are generally provided with 2, the fixing members include a neck massage fixing sleeve 502 and a double-layer sealing ring 3022, the neck massage rotary head 406 is fixedly connected with the housing 3021 at the top of the gear cavity 302 through the neck massage fixing sleeve 502 and the double-layer sealing ring 3022, and the neck massage rotary head 406 is fixedly connected with the neck massage output shaft 404. Specifically, neck massage swivel 406 includes the connecting portion in the middle of and the massage plush copper that bilateral symmetry set up, be equipped with screw hole and a certain amount of inserting groove and apopore 407 on the connecting piece 604, the top of neck massage output shaft 404 is equipped with the flat position of grafting of a certain amount, neck massage swivel 406 passes through flat bit architecture with neck massage output shaft 404 and is connected the back, and through the screw hole of screw fastening on connecting piece 604, it rotates to realize neck massage output shaft 404 and drives neck massage swivel 406 and rotate, and be equipped with a certain amount of apopore 407 on the neck massage swivel 406, realize out water.

Specifically, water enters from the first water inlet 101, and enters the first water inlet channel 2021 at the lower part of the turbine disc 202, so that the internal turbine 204 rotates clockwise and the output gear 207 at the top of the turbine 204 rotates, the reduction gear set 301 is driven to rotate, the rotating speed is reduced, the rotating torque is increased, and then the rotating torque is output to the output shaft through the pinion, so that the output shaft rotates clockwise, and after the output shaft is effectively connected with the neck massage head 402, the neck massage head 402 rotates clockwise (positive); after the turbine 204 is pushed to rotate, water flows in through the water passing gap 208 in the gear cavity 302, passes through the water passing holes 303 at the top of the gear cavity 302, enters the water flow channel of the neck massage head 402, and finally acts on the neck of a user;

water enters from the second water inlet 102, and water flow enters the second water inlet channel 2022 at the upper part of the turbine disc 202, so that the internal turbine 204 rotates anticlockwise, the output gear 207 at the top of the turbine 204 rotates to drive the reduction gear set 301 to rotate, the rotating speed is reduced, and after the rotating torque is increased, the water is output to an output shaft through a pinion; the output shaft can rotate anticlockwise, and after the output shaft is effectively connected with the neck massage head 402, the neck massage head 402 can rotate anticlockwise (reversely); after the turbine 204 is pushed to rotate, the water flows in through the water passing gap 208 inside the gear cavity 302, passes through the water passing holes 303 at the top of the gear cavity 302, enters the water flow channel of the neck massage head 402, and finally acts on the neck of the user.

In a specific embodiment, referring to fig. 29-30, the multifunctional neck massage bathtub further comprises a headrest assembly 601, wherein the headrest assembly 601 comprises a left headrest 602, a right headrest 603 and a connector 604 therebetween, the connector 604 is used for fixing the left headrest 602 and the right headrest 603, massage covers covering the neck massage heads 402 are arranged on the left headrest 602 and the right headrest 603, a water discharge hole 605 is arranged on the massage covers, and water flowing out of the water discharge hole 407 can flow into the bathtub from the water discharge hole 605. The left headrest 602 and the right headrest 603 are separated to meet the adjustment of different center distances, the left headrest 602 and the right headrest 603 are made of gel materials, the surfaces of the gel materials have certain viscosity, the gel materials can be adhered to the smooth surface of a bathtub, a water drainage hole 605 is formed in the top of the headrest, and water flow in the massage device can be sprayed to the neck of a user through the water drainage hole 605; the connecting piece 604 is in an I-shaped structure and is inserted at the end parts of the left headrest 602 and the right headrest 603, the inserting inner groove is a smooth surface and can be effectively bonded with the left headrest 602 and the right headrest 603 to effectively support the skull parietal part of a user after the adjustment of different center distances, and the connecting piece 604 mainly covers the gaps at the middle parts after the adjustment of the different center distances, so that the use process of the user is more comfortable.

Referring to fig. 31 to 34, an embodiment of the present application further provides a massage waterway system of a massage bathtub, including waterway pipes 701, a temperature-adjusting switching valve 703 and the above-mentioned massage device based on hydraulic drive, different waterway pipes 701 are connected to different water inlets of the massage device and drive the massage heads to rotate in different directions, the waterway pipes 701 are connected to the temperature-adjusting switching valve 703, and the temperature of the waterway pipes 701 and the different water inlets of the massage device are controlled by adjusting the temperature-adjusting switching valve 703 to open or close the water outlet waterways between the different waterway pipes 701 and the different water inlets of the massage device. Waterway pipe 701 includes a first pipeline and a second pipeline, the water inlets include a first water inlet 101 and a second water inlet 102, and the effluent waterway includes a first effluent waterway 7031 and a second effluent waterway 7032.

In a specific embodiment, the massage devices comprise at least 2 neck massage devices and N foot massage devices, N is an even number, the first water inlets 101 of one of the neck massage devices and one of the N/2 foot massage devices are connected with the first pipeline, and the second water inlets 102 of the other of the neck massage devices and the other of the N/2 foot massage devices are connected with the first pipeline to form a first water outlet circuit 7031; the second water inlets 102 of one neck massage device and one group of N/2 foot massage devices are connected with a second pipeline, and the first water inlets 101 of the other neck massage device and the other group of N/2 foot massage devices are connected with the second pipeline to form a second water outlet water path 7032.

Specifically, taking two neck massage devices and four foot massage devices as examples, the neck massage device comprises a first neck massage device 710 and a second neck massage device 711, and the foot massage device comprises a first foot massage device 706, a second foot massage device 707, a third foot massage device 708 and a fourth foot massage device 709, wherein the first water inlet 101 of the first foot massage device 706, the second foot massage device 707 and the second neck massage device 711 and the second water inlet 102 of the third foot massage device 708, the fourth foot massage device 709 and the first neck massage device 710 are connected with the temperature-regulating switching valve 703 through a first water channel 701 to form a first water outlet water channel 7031; the second water inlets 102 of the first foot massage device 706, the second foot massage device 707 and the second neck massage device 711, and the first water inlets 101 of the third foot massage device 708, the fourth foot massage device 709 and the first neck massage device 710 are connected with the temperature-adjusting switching valve 703 through a second water channel pipe 701 to form a second water outlet water channel 7032.

Specifically, in the first water outlet water channel 7031, cold and hot water flows through a cold and hot water pipe to enter the temperature-adjusting switching valve 703, and after the cold and hot water flows are mixed in the cavity of the temperature-adjusting switching valve 703, the water flows out of the bottom water outlet pipe, enters the first water channel pipe 701, first enters the first T-shaped tee 7011, is divided into two paths of water, and enters the first four-way 7012 and the second L-shaped tee 7015 respectively, and the water flows into three paths of water, through the first four-way 7012, and enters the first L-shaped tee 7014, the third foot massaging device 708 and the second water inlet 102 of the fourth foot massaging device 709 respectively; water is fed from the second water inlets 102 of the third foot massage device 708 and the fourth foot massage device 709, the inner turbine 204 rotates counterclockwise, the output gear 207 rotates counterclockwise, the inner wheel 4051 rotates counterclockwise, and the outer wheel 4052 rotates clockwise (forward rotation); meanwhile, the water flow enters the first water inlet 101 of the first foot massage device 706 and the second foot massage device 707 through the first L-shaped tee 7014; water is fed from the first water inlets 101 of the first foot massage device 706 and the second foot massage device 707, the internal turbine 204 rotates clockwise, the output gear 207 rotates clockwise, the internal wheel 4051 rotates clockwise, the external wheel 4052 rotates counterclockwise (rotates in the reverse direction), and water flows through the second L-shaped tee 7015 into the second water inlet 102 of the first neck massage device 710 and the first water inlet 101 of the second neck massage device 711 respectively, so that the first neck massage device 710 rotates counterclockwise (rotates in the reverse direction) and the second neck massage device 711 rotates clockwise (rotates in the forward direction), and therefore, in the first water outlet water path 7031, the first neck massage device 710 rotates in the reverse direction, and the first foot massage device 706 and the external wheel 4052 of the second foot massage device 707 rotate in the reverse direction; the second neck massage device 711 rotates forward, and the outer wheels 4052 of the third foot massage device 708 and the fourth foot massage device 709 rotate forward.

Specifically, in the second water outlet channel 7032, cold and hot water flows through a cold and hot water pipe and enters the temperature-regulating switching valve 703, after being mixed by a cavity in the temperature-regulating switching valve 703, water is discharged from a side water outlet pipe, the water flow enters the second cross 7013 through a pipeline, the water flow is divided into three paths, and the three paths of water respectively enter the first L-shaped tee 7014, the second L-shaped tee 7015 and the third L-shaped tee 7016, the water flow is divided into two paths through the tee, and respectively enter the first water inlet 101 of the first neck massage device 710 and the second water inlet 102 of the second neck massage device 711, so that the first neck massage device 710 is driven to rotate clockwise (forward rotation), the second neck massage device 711 is driven to rotate counterclockwise (reverse rotation), the water flow is divided into two paths through the fourth L-shaped tee 7017, and respectively enter the second water inlet 102 of the second foot massage device 707 (outer wheel 4052 is driven to rotate clockwise) and the first water inlet 101 of the third foot massage device (outer wheel 708 is driven to rotate counterclockwise); the water flow is divided into two paths through a fifth L-shaped tee 7018 and enters a second water inlet 102 of the first foot massage device 706 (the outer wheel 4052 rotates clockwise) and a first water inlet 101 of the fourth foot massage device 709 (the outer wheel 4052 rotates anticlockwise); in the second effluent water path 7032, the second neck massage device 711 is inverted, and the outer rings 4052 of the third foot massage device 708 and the fourth foot massage device 709 are inverted; the first neck massaging device 710 is rotated in a forward direction and the outer wheels 4052 of the first foot massaging device 706 and the second foot massaging device 707 are rotated in a forward direction.

In a specific embodiment, referring to fig. 35-49, the temperature-adjusting switching valve 703 is provided with a first water outlet, a second water outlet, a cold water inlet 7033, a hot water inlet 7034, a valve body 7036 and a switching knob 7035, the switching knob 7035 is connected to the valve body 7036, the first water outlet and the second water outlet are connected to the cold water inlet 7033, the hot water inlet 7034 and the valve body 7036, the first water outlet and the second water outlet are respectively connected to the first pipeline and the second pipeline, a water path between the cold water inlet 7033 and/or the hot water inlet 7034 and the first water outlet or the second water outlet is opened or closed by switching the state of the valve body 7036 by adjusting the switching knob 7035, and the water inflow of the cold water inlet 7033 and/or the hot water inlet 7034 in the valve body 7036 is adjusted. The valve body 7036 comprises a valve core 7037, a valve core fixing nut 7038 and a valve casing 7039, wherein the valve core 7037 comprises a base 70371, a valve rod 70372, a movable sheet 70373, a fixed sheet 70374, a spring 70375, a clamping pin 70376, a support 70377, a C-shaped buckle 70378 and a sealing ring 70379, and the temperature regulating and switching valve 703 is formed by assembling the above components. Referring to fig. 37 to 40, when the temperature-adjusting switch valve 703 is in the OFF position, the bathtub has no water inlet function and no water outlet function, and the two passages of the cold water inlet 7033 and the hot water inlet 7034 are disconnected from the first waterway pipe 701 and the second waterway pipe 701; referring to fig. 41 to 44, when the temperature-adjusting switching valve 703 is in the position of the I zone, the function of the first water outlet channel 7031 is turned on, the water outlet flow is constant, the temperature can be adjusted from low to high in the process of counterclockwise rotation, and the cold water inlet 7033, the hot water inlet 7034 are communicated with the first water channel pipe 701; referring to fig. 45 to 47, when the temperature-adjusting switching valve 703 is in the position of the second zone ii, the function of the second water outlet pipe 7032 is turned on, the water outlet flow is constant, the temperature can be adjusted from low to high in the process of counterclockwise rotation, and the cold water inlet 7033, the hot water inlet 7034 and the second water pipe 701 are communicated.

Referring to fig. 50 to 53, embodiments of the present application also provide a massage bathtub, which includes a bathtub body 801 and a massage waterway system of the above-described massage bathtub, the massage waterway system being mounted on the bathtub body 801, the bathtub body 801 including a head support portion and a foot support portion, and the massage device including a neck massage device and a foot massage device respectively provided on the head support portion and the foot support portion. In order to satisfy the requirement that a user can simultaneously use foot massage and neck massage, the bathtub body 801 is respectively provided with a head part, a neck part, a waist and back part, a small leg part and a multi-directional supporting position; the massage bathtub does not need electricity, and the electric leakage risk can be avoided. When a user meets a certain water pressure condition, the massage device can be driven to rotate through water power, and feet can be rotated for massage; the bathtub is provided with a certain installation position and special requirements thereof aiming at the massage device; the optimal use state of the foot massage function is that when the bathtub is empty, the user uses the massage device inside, the massage device provides hydrotherapy, and after the foot massage is finished, the user can preferentially discharge the massage water; can also be used in a water storage state. The neck position of the head supporting part is provided with a hydraulically driven neck massage device, the neck massage is realized rotating by driving the inner turbine 204 through water power, and the reduction gear set 301 is driven to rotate, so that the neck massage rotating head is driven to rotate, and the neck massage of a user is realized. The relative rotation of the first neck massage device 710 and the second neck massage device 711 is positive and negative rotation, and the positive and negative rotation of the two modules can be realized through the temperature-adjusting switching valve 703. For the difference of the center distances of the necks of different users, the distance between the first neck massage device 710 and the second neck massage device 711 can be adjusted properly according to the special customization requirement.

Specifically, this massage bathtub is equipped with head supporting part, neck supporting part, back supporting part, buttock supporting part, shank supporting part, foot supporting part, for satisfying most Asian user's figure of the body and use, length, width, angle recommend as follows in the bathtub:

the back supporting part and the hip supporting part form a certain included angle, and the angle is recommended to be 120-145 degrees; the hip support part forms a certain angle with the horizontal plane, and the angle is recommended to be 3-5 degrees; the hip support part and the leg support part form a certain angle, and the angle is recommended to be 125-135 degrees; the leg support is at an angle to the horizontal plane of the base, preferably 120-135 °; the foot support is at an angle to the horizontal of the base, preferably 135-150.

After a certain included angle is met, the lengths of the supporting parts have a certain relation as follows:

the length L4 of the foot support should be: 265mm-300mm, the distance between the two foot massage devices is recommended to be W1=150 +/-10 mm, and W2=100 +/-15 mm; the process can be carried out W1 and W2 customized center distance according to the foot length of a customer properly; the limitation of the center distance of the electric control massage machine core can be avoided;

the length L6 of the neck supporting part is 120 +/-10 mm, and the center distance between the two neck massage devices is recommended to be W3=150 +/-10 mm; the process can be properly customized according to the width of the neck of the user, and the position of the skull parietal bone L5 can be adjusted; the distance L5 between the neck and the parietal bone is recommended to be 140-160mm (according to the shape face length);

the width W4 of the shoulder support is preferably greater than 470mm; the length L1 of the back support is preferably 550-600mm;

the length L2 of the hip support part is recommended to be 400-450mm, and the width W5 is recommended to be more than 400mm;

the leg supporting part is preferably 400 to 450mm from the center of the foot massage apparatus by a distance L3, and the leg width is preferably more than 470mm.

The above dimensions and angles are examples only, and it is within the scope of the present invention to employ embodiments of the whirlpool in other shapes and sizes.

The above embodiments are only used to further illustrate the technical solutions of the present invention, but the present invention is not limited to the embodiments, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention fall within the protection scope of the technical solutions of the present invention.

Claims (16)

1. A massage device based on hydraulic drive is characterized in that: including water inlet, drive assembly and massage head, drive assembly includes the turbine drive-disc, be equipped with double-deck inhalant canal structure and output gear on the turbine drive-disc to its inside is equipped with crosses the water clearance, drive assembly includes reduction gear group and gear chamber, reduction gear group sets up at the gear intracavity, the gear intracavity is equipped with the water hole, output gear with the reduction gear group transmission is connected, reduction gear group with the first transmission of massage is connected, the overhead apopore that is equipped with of massage, different water inlets with different layers intercommunication in the double-deck inhalant canal structure, through switching water route pipeline and difference switching on of water inlet makes the drive water route that forms the equidirectional in the double-deck inhalant canal structure drives output gear rotates along the equidirectional, and drive reduction gear group drives the first rotation of following of massage, and the water in the drive water route passes through the water clearance with cross the water hole follow flow on the overhead apopore of massage.

2. The hydraulically driven massage device of claim 1, wherein: the turbine driving disc comprises a turbine disc and a turbine module, the turbine module is installed in the turbine disc, water inlet channels in different directions are arranged on the turbine disc, the turbine disc is different, the water inlet is connected with the water inlet channels in different directions, and the turbine module forms a double-layer water inlet channel structure, so that the turbine module rotates along different directions under the action of drive water channels in different directions.

3. The hydraulically driven based massaging device of claim 2, wherein: the turbine module comprises a turbine, a turbine base and a turbine rotating shaft, the output gear is arranged at the top of the turbine, the turbine is fixedly connected with the turbine base, and the turbine base are fixed on the turbine disc through the turbine rotating shaft.

4. The hydraulically driven massage device of claim 2, wherein: the inhalant canal is including setting up respectively turbine disk lateral wall's lower part and upper portion first inhalant canal and second inhalant canal, it will to be equipped with on turbine disk's the outer wall at a distance from the ring first inhalant canal and second inhalant canal separate.

5. The hydraulically driven massage device of claim 4, wherein: the water inlet is including locating the first water inlet and the second water inlet of different positions, first water inlet and second water inlet respectively with first water channel and the second passageway of intaking switches on, follows through switching into water first water inlet or second water inlet get into first water channel or second passageway of intaking makes the turbine module is along clockwise or anticlockwise rotation.

6. The hydraulically driven based massaging device of claim 1, wherein: the reduction gear set comprises a plurality of secondary gears, each secondary gear comprises a large gear and a small gear, the output gear is in transmission connection with the large gear, and a plurality of secondary gear pieces form a gear pair combination through the large gear and the small gears.

7. The hydraulically driven massage device of claim 6, wherein: the massage head is provided with an output shaft and a massage part, the massage part comprises a fixing part and a massage rotating head, the massage rotating head is installed on the gear cavity through the fixing part, the output shaft is provided with a water passing channel and an installation structure connected with the massage rotating head, the output shaft is fixedly connected with a pinion of the reduction gear set and the massage rotating head and drives the massage part to rotate along different directions, and the massage part is provided with a water outlet hole communicated with the water passing channel.

8. The hydraulically driven based massaging device of claim 7, wherein: the massage head comprises a foot massage head, the foot massage head comprises an inner wheel and an outer wheel, the inner wheel is in transmission connection with the outer wheel and enables the inner wheel and the outer wheel to rotate in different directions respectively, the output shaft comprises a foot massage output shaft, the foot massage output shaft is fixedly connected with the inner wheel and drives the inner wheel to rotate and the outer wheel to rotate when the inner wheel is driven to rotate.

9. The hydraulically driven based massaging device of claim 8, wherein: the inner wheel is provided with rolling balls, first salient points and the water outlet hole, and the outer wheel is provided with second salient points and the water outlet hole.

10. The hydraulically driven massage device of claim 7, wherein: the massage head comprises a neck massage head, the output shaft comprises a neck massage output shaft, the massage rotary head comprises a neck massage rotary head, and the neck massage rotary head is fixedly connected with the neck massage output shaft.

11. The hydraulically driven based massaging device of claim 10, wherein: still include the headrest subassembly, the headrest subassembly includes left headrest, right headrest and connecting piece between them, the connecting piece is used for fixing left side headrest and right headrest, be equipped with on left side headrest and the right headrest and cover and be in the overhead massage cover of neck massage, be equipped with the wash port on the massage cover.

12. A massage waterway system of a massage bathtub is characterized in that: the massage device based on hydraulic drive comprises waterway pipelines, a temperature-adjusting switching valve and the massage device based on hydraulic drive of any one of claims 1-11, wherein different waterway pipelines are connected with different water inlets of the massage device and drive the massage head to rotate in different directions, the waterway pipelines are connected with the temperature-adjusting switching valve, and the temperature of the waterway is controlled by adjusting the temperature-adjusting switching valve to conduct or cut off water outlet waterways between different waterway pipelines and different water inlets of the massage device.

13. The massage waterway system of the massage bathtub of claim 12, wherein: the waterway pipeline comprises a first pipeline and a second pipeline, the water inlet comprises a first water inlet and a second water inlet, and the water outlet waterway comprises a first water outlet waterway and a second water outlet waterway.

14. The massage waterway system of the massage bathtub of claim 13, wherein: the massage devices comprise at least 2 neck massage devices and N foot massage devices, N is an even number, the first water inlets of one neck massage device and one group of N/2 foot massage devices are connected with the first pipeline, and the second water inlets of the other neck massage device and the other group of N/2 foot massage devices are connected with the first pipeline to form a first water outlet waterway; the second water inlets of one neck massage device and one group of N/2 foot massage devices are connected with the second pipeline, and the first water inlets of the other neck massage device and the other group of N/2 foot massage devices are connected with the second pipeline to form a second water outlet waterway.

15. The massage water path system of the massage bathtub of claim 13, wherein: the temperature-adjusting switching valve is provided with a first water outlet, a second water outlet, a cold water inlet, a hot water inlet, a valve body and a switching knob, the switching knob is connected with the valve body, the first water outlet and the second water outlet are connected with the cold water inlet, the hot water inlet and the valve body, the first water outlet and the second water outlet are respectively connected with the first pipeline and the second pipeline, the state of the valve body is switched by the switching knob to conduct or cut off a water path between the cold water inlet and/or the hot water inlet and the first water outlet or the second water outlet, and the cold water inlet and/or the hot water inlet are/is adjusted according to the water inflow in the valve body.

16. A massage bathtub is characterized in that: a massaging waterway system comprising a body on which the massaging waterway system is mounted and the massage bathtub of any one of claims 12-15, the body including a head support portion and a foot support portion, the massaging device including a neck massaging device and a foot massaging device provided at the head support portion and the foot support portion, respectively.

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