CN212037321U - Hydrodynamic force bath and shower machine - Google Patents

Abstract

The utility model provides a hydrodynamic force shower bath machine of giving a rubdown with a damp towel, including shower portion and the portion of giving a rubdown with a damp towel, shower portion top is provided with a shower nozzle, the portion of giving a rubdown with a damp towel includes the casing, massage device, the lift jar, fixed cutting ferrule, the water pipe, first commutator, the second commutator, the switching-over valve, massage device includes hydrodynamic force rotary device, rotatory massage head and frame, the water pipe links to each other with hydrodynamic force rotary device and makes rotatory massage head rotatory, the lift jar is extending structure, fixed cutting ferrule is fixed the frame in lift jar middle section, hydrodynamic force rotary device installs in this frame, the water pipe is with the switching-over valve, the lift jar, first commutator, second commutator interconnect. The utility model discloses increase the function of giving a rubdown with a damp towel on the basis that has the shower function, utilize rivers as the drive source completely, rotatory massage head's of drive rotation, removal and switching-over can be rubbed with the hands and washed the health in the great range, improve the travelling comfort and the efficiency of bathing, need not to connect the electricity, have avoided the electric leakage risk, make the security improve greatly.

Description

Hydrodynamic force bath and shower machine

Technical Field

The utility model relates to a shower device, in particular to a hydrodynamic bath machine.

Background

In order to solve the problem that people are difficult to scrub the back at home, a plurality of existing shower machines with the back scrubbing function are provided:

for example, the invention patent with the application number of 201510249471.0 and named as a hot water shower and rubdown integrated machine adopts the motor for driving, and the motor drives a working wheel through a speed reducer and a conveyor belt to drive a rubdown rotating shaft to rotate;

and then like the utility model patent with the name of 201420705485.X "a back rubbing and bathing machine", it is rotated with the drive screw by the transmission of elevator motor drive, drives the mechanism of rubbing with the back and reciprocates under the carriage effect, adjusts the position of rubbing with the back, drives the derailleur with the drive of the drive motor of rubbing with the back and rubs the rocking arm with the back and drives the connecting rod of rubbing with the back and rub the slip dish and reciprocate along the slide rail of rubbing with the back and rub with the back and move and realize the action of rubbing with the back.

However, all of these showering machines are driven by electric power, and have a risk of electric leakage when in use, thereby having great potential safety hazard.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

An object of the utility model is to provide a hydrodynamic force shower bath with a rubdown, can directly utilize rivers as the driving energy operation, need not to connect the electricity, avoid the electric leakage risk, and convenient to use. In order to achieve the above purpose, the utility model adopts the following technical scheme:

(II) technical scheme

A hydrodynamic force rubdown shower machine comprises a shower part and a rubdown part, wherein the shower part is arranged above the rubdown part, and the top of the shower part is provided with a shower nozzle; the rubbing part comprises a shell, a massage device with the tail end exposed out of the shell, a lifting cylinder, a fixed clamping sleeve, a water pipe, a first reverser, a second reverser and a reversing valve, wherein the lifting cylinder, the fixed clamping sleeve, the water pipe, the first reverser, the second reverser and the reversing valve are arranged in the shell; the massage device comprises a hydrodynamic force rotating device, a rotating massage head and a frame, wherein a water pipe is connected with the hydrodynamic force rotating device to apply work so as to drive the rotating massage head to rotate, a lifting cylinder is of a telescopic structure, a fixing clamping sleeve fixes the frame at the middle section of the lifting cylinder, the hydrodynamic force rotating device is installed on the frame, one end of the water pipe is connected with a water inlet pipe and the other end of the reversing valve, which are connected with the hydrodynamic force rotating device through hoses, the water pipe is connected with the reversing valve, the lifting cylinder, a first reverser and a second reverser, and water flow in the water pipe flows out through two different outlets of the reversing valve and then is stretched towards different directions through the first reverser and the second reverser so as to drive the lifting cylinder to move up and down.

Furthermore, the shell comprises an upper shell, a lower shell and a shell between the upper shell and the lower shell, and the shell is provided with a moving groove for the massage device to move longitudinally.

Furthermore, the shower nozzle is connected with a shower water pipe, and the other end of the shower water pipe penetrates through the shell to form a shower water inlet pipe outside the lower shell.

Further, the lifting cylinder is divided into an upper part and a lower part by the rack, each part is composed of a plurality of sleeves which are mutually nested and the diameters of the sleeves are sequentially reduced towards two ends, the rack is fixed on the sleeve with the largest diameter by the fixed clamping sleeve, and the sleeve with the smallest diameter is connected with the water pipe.

Further, the number of the lifting cylinders is two and the lifting cylinders are arranged in parallel.

Furthermore, two guide posts which are parallel to each other are fixed in the shell, and the rack is connected with the guide posts in a sliding manner.

Furthermore, a water inlet pipe of the water pipe is connected with a water inlet of a reversing valve of the reversing valve, an upper outlet of the reversing valve is arranged at the top of the reversing valve, a lower outlet of the reversing valve is arranged at the bottom of the reversing valve, a connection part of the top of the lifting cylinder and the water pipe is a descending inlet, and the bottom of the lifting cylinder is an ascending inlet, the first reverser is provided with a first reverser closing inlet, a first reverser water inlet, a first reverser opening inlet and a first reverser water outlet, the second reverser is provided with a second reverser closing inlet, a second reverser water inlet, a second reverser opening inlet and a second reverser water outlet, and a connection part of the water pipe and the hose is a water outlet; the water pipe connects the lower outlet of the reversing valve with the ascending inlet, the closed inlet of the second reverser, the water inlet of the second reverser and the open inlet of the first reverser, connects the upper outlet of the reversing valve with the descending inlet, the closed inlet of the first reverser, the water inlet of the first reverser and the open inlet of the second reverser, and connects the water outlet of the second reverser and the water outlet of the first reverser with the water outlet.

Further, first commutator and second commutator structure are the same, all include sleeve and core, the core slidable formula is worn to establish in the sleeve, it has the great first passageway of diameter and the less second passageway of diameter to open in the sleeve, the core is located part in the first passageway divide into the first stopper and the second stopper of water proof ring both sides and this water proof ring both sides, water proof ring will the first passageway divide into two parts and forms first pressure chamber and second pressure chamber, the core is located part in the second passageway is provided with the neck and makes the second passageway form a logical water cavity.

Further, a control handle is connected to the direction valve, the control handle moves up and down to enable the water flowing in from the direction valve water inlet to flow out from the direction valve upper outlet or the direction valve lower outlet, and the control handle is located outside the shell.

Further, the upper shell and the lower shell are both provided with fixing plates.

(III) advantageous effects

Compared with the prior art, the utility model have obvious advantage and beneficial effect, particularly, increase the function of giving a rubdown with a damp towel on the basis that has the shower function to utilize rivers as the drive source completely, rotatory massage head's of drive rotation, removal and switching-over can be to the health of great within range rubbing with a damp towel and wash, improve the travelling comfort and the efficiency of bathing, need not to connect the electricity, have avoided the electric leakage risk, make the security improve greatly.

Drawings

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is a front view of the overall configuration of the present invention;

FIG. 2 is a schematic view of the overall shape of the back of the present invention;

FIG. 3 is a schematic view showing the internal structure of the bathing part 2;

FIG. 4 is a schematic view showing the connection of the water pipe 25 to the respective components;

fig. 5 is a schematic longitudinal sectional view of the present invention at the position of the lift cylinder 23;

FIG. 6 is an enlarged partial view taken at I in FIG. 5;

fig. 7 is a sectional view schematically showing an opened state of the second commutator 27;

fig. 8 is a sectional view schematically showing a closed state of the second commutator 27;

FIG. 9 is a schematic cross-sectional view of the diverter valve 28 with the control handle 281 in the up position;

FIG. 10 is a schematic cross-sectional view of the diverter valve 28 with the control handle 281 depressed;

fig. 11 is an exploded view of hydrodynamic spinner 221 in an example embodiment.

The reference numbers illustrate:

1. shower part 11 and shower head

12. Shower water pipe 121 and shower water inlet pipe

2. Scrubbing part 21 and shell

211. Outer shell 212, upper housing

213. Lower case 214, moving groove

22. Massage device 221 and hydrodynamic rotating device

2211. Hydrodynamic cylinder 2212 and crankshaft

2213. Water knockout vessel 2214, piston head

2215. Link 222, rotary massage head

223. Frame 23, lift cylinder

24. Fixing clamp sleeve 231 and sleeve

25. Water pipe 251, water inlet pipe

252. Hose 26, first commutator

27. Second commutator 271 and sleeve

2711. First channel 2712 and second channel

272. Core 2721 and first stopper

2722. Water-proof ring 2723 and second limiting block

2724. Neck 273, first pressure chamber

274. Water through cavity 275, second pressure cavity

28. Reversing valve 281 and control handle

29. Guide post 3, fixed plate

a. Water inlet b of change valve₁Lower outlet of reversing valve

b₂And an upper outlet c of the reversing valve₁A first rising inlet

c₁', a second ascending inlet c₂A first descending inlet

c₂', a second descending inlet d₁The second commutator closes the inlet

d₂A water inlet d of the second commutator₃The second commutator opens the inlet

d₄And a water outlet e of the second commutator₁The first commutator closes the inlet

e₂A water inlet e of the first commutator₃The first commutator opening inlet

e₄A water outlet f of the first commutator and a water outlet

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Referring to fig. 1 to 11, a hydrodynamic bath machine comprises a shower part 1 and a bath part 2, wherein the shower part 1 is arranged above the bath part 2 and is provided with a shower nozzle 11 at the top;

the bathing part 2 comprises a shell 21, a massage device 22 with the tail end exposed out of the shell 21, a lifting cylinder 23 arranged in the shell 21, a fixing cutting sleeve 24, a water pipe 25, a first reverser 26, a second reverser 27 and a reversing valve 28, wherein:

the housing 21 comprises an upper housing 212, a lower housing 213 and a housing 211 therebetween, the housing 211 is provided with a moving groove 214 for moving the massage device 22 longitudinally, the shower head 11 is connected with the shower pipe 12, and the other end of the shower pipe 12 passes through the housing 21 and forms a shower inlet pipe 121 outside the lower housing 213;

the massage device 22 comprises a hydrodynamic rotating device 221, a rotating massage head 222 and a frame 223, wherein the hydrodynamic rotating device 221 is a three-cylinder star-shaped piston structure and is mounted on the frame 223, and the water pipe 25 is connected with the hydrodynamic rotating device 221 to apply work so as to drive the rotating massage head 222 to rotate;

the fixed cutting sleeve 24 fixes the rack 223 at the middle section of the lifting cylinder 23, the rack 223 divides the lifting cylinder 23 into an upper part and a lower part, both parts are of a telescopic structure, each part consists of a plurality of mutually nested sleeves 231 with diameters decreasing towards two ends in sequence, the rack 223 is fixed on the sleeve with the largest diameter by the fixed cutting sleeve 24, and the sleeve with the smallest diameter is connected with the water pipe 25; in order to make the massage device 22 move stably, the number of the lifting cylinders 23 is two and are arranged in parallel, meanwhile, two guide columns 29 which are parallel to each other are fixed in the shell 21, and the frame 223 is connected with the guide columns 29 in a sliding way;

one end of the water pipe 25 is a water inlet pipe 251 connected with the reversing valve 28, and the other end is connected with the hydrodynamic rotating device 221 through a hose 252, the water pipe 25 connects the reversing valve 28, the lifting cylinder 23, the first reverser 26 and the second reverser 27 with each other, when the water in the water pipe 25 flows out through two different outlets of the reversing valve 28, the water passes through the first reverser 26 and the second reverser 27 to make the lifting cylinder 23 extend and contract in different directions, so as to drive the massage device 22 to move up and down;

specifically, as shown in fig. 4, the water inlet pipe 251 of the water pipe 25 is connected to the water inlet a of the reversing valve 28, and the top of the reversing valve 28 is the upper outlet b of the reversing valve₂The bottom is a lower outlet b of the reversing valve₁The connection part of the tops of the two lifting cylinders 23 and the water pipe 25Is otherwise the first descending inlet c₂And a second descending inlet c₂' the bottom is a first ascending inlet c respectively₁And a second rising inlet c₁', the first diverter 26 is provided with a first diverter closure inlet e₁A water inlet e of the first commutator₂The first commutator opening inlet e₃The water outlet e of the first commutator₄Said second commutator 27 being provided with a second commutator closing inlet d₁A water inlet d of the second commutator₂The opening inlet d of the second commutator₃A water outlet d of the second commutator₄The joint of the water pipe 25 and the hose 252 is a water outlet f; the water pipe 25 is used for connecting the lower outlet b of the reversing valve₁And said first rising inlet c₁A second rising inlet c₁', the second commutator closes the inlet d₁A water inlet d of the second commutator₂The first commutator opening inlet e₃Is connected with the upper outlet b of the reversing valve₂And said first drop inlet c₂A second descending inlet c₂', the first commutator closing inlet e₁A water inlet e of the first commutator₂The opening inlet of the second commutator is connected with d₃The water outlet d of the second commutator₄And a first commutator water outlet e₄Is connected with the water outlet f.

In order to accomplish the reversing by using water flow, the first reverser 26 and the second reverser 27 have the same structure, taking the second reverser 27 as an example, the second reverser 27 includes a sleeve 271 and a core 272, the core 272 can be slidably inserted into the sleeve 271, a first passage 2711 with a larger diameter and a second passage 2712 with a smaller diameter are formed in the sleeve 271, a portion of the core 272 located in the first passage 2711 is divided into a water isolating ring 2722 and a first stopper 2721 and a second stopper 2723 on both sides of the water isolating ring 2722, the water isolating ring 2722 divides the first passage 2711 into two parts to form a first pressure chamber 273 and a second pressure chamber 275, and a neck 2724 is provided on a portion of the core 272 located in the second passage 2712 to form a water passage 274 in the second passage 2712;

for artificially controlling the moving direction of the massage device 22, the movement is changedA control handle 281 is connected to the valve 28, and the control handle 281 moves up and down to discharge the water flowing from the inlet a of the direction valve to the outlet b of the direction valve₂Or the lower outlet b of the reversing valve₁And out of the housing 21, and the control handle 281 is located outside the housing 21.

In order to fix the bathing shower for convenient use, the upper and lower housings 212 and 213 are each provided with a fixing plate 3 for fixation.

The utility model discloses an application principle does: the shower inlet pipe 121 and the shower inlet pipe 251 are respectively connected with an external water source, and water flows into the reversing valve 28 from the reversing valve inlet a;

when it is desired to move the massage device 22 upward, as shown in fig. 9, the control handle 281 is lifted upward, and the inlet a and the outlet b of the diverter valve are opened₁Communicated with the lower outlet b of the reversing valve₁After flowing out, a part of water flows into the second commutator to close the inlet d₁And fills the second pressure chamber 275 as shown in fig. 8, wherein the core 272 of the second diverter 27 is lifted upward to allow the second diverter inlet d to enter₂And a second commutator water outlet d₄The second diverter 27 is in the closed state, not being in communication through the water communication chamber 274; similarly, a portion of the water flows into the first diverter open inlet e of the first diverter 26₃So that the first diverter 26 is in an open state and the first diverter water inlet e is₂And a first commutator water outlet e₄Are communicated with each other; another part flows into the first rising inlet c₁And a second rising inlet c₁' when the lower part of the lift cylinder 23 generates water pressure to push the frame 223 upward, the massage device 22 moves upward, and water in the upper part of the lift cylinder 23 is pushed out from the first lowering inlet c₂And a second descending inlet c₂' flow out and through the first diverter inlet e₂Flows into the first commutator 26 and flows out of the first commutator water outlet e₄And finally flows into the hydrodynamic force rotating device 221 through the water outlet f to apply work, so as to drive the rotating massage head 222 to rotate, thereby completing the function of rubdown.

Similarly, when it is necessary to orient the massage device 22 toIn the downward movement, as shown in FIG. 10, the control handle 281 is pressed downward, and the inlet a and the outlet b of the diverter valve are connected to the inlet and outlet of the diverter valve₂Communicated with the water flow outlet b from the reversing valve₂After flowing out, a part of water flows into the first commutator to close the inlet e₁Make the water inlet e of the first commutator₂And a first commutator water outlet e₄No communication is possible, the first diverter 26 is in the closed state; similarly, a portion of the water flows into the second diverter open inlet d of the second diverter 26₃In FIG. 7, the second diverter 27 is opened and the second diverter inlet d is connected to₂And a second commutator water outlet d₄Are communicated with each other; another part flows into the first drop inlet c₂And a second descending inlet c₂' the upper half of the lift cylinder 23 is pressurized with water to push the frame 223 downward, so that the massage device 22 moves downward, thereby squeezing out the water in the lower half of the lift cylinder 23 through the first elevation inlet c₁And a second rising inlet c₁' out and through the second diverter inlet d₂Flows into the second commutator 27 and flows out of the second commutator water outlet d₄And finally flows into the hydrodynamic force rotating device 221 through the water outlet f to apply work, so as to drive the rotating massage head 222 to rotate, thereby completing the function of rubdown.

In the present embodiment, the hydrodynamic rotating device 221 is a handheld hydrodynamic cleaner with CN201910123711.0 application number as a base, as shown in fig. 11, three piston heads 2214 are rotatably connected to the crankshaft 2212 through a connecting rod 2215 and are disposed in a hydrodynamic cylinder 2211, after the hose 252 is connected to the hose, the hose flows into the hydrodynamic cylinder 2211 through a water separator 2213 to compress the piston heads 2214, then the connecting rod 2215 drives the crankshaft 2212 to rotate, and the water flow sequentially pushes the piston heads 2214 to move under the action of the water separator 2213, so that the crankshaft 2212 rotates, and the rotating massage head 222 connected to the crankshaft rotates continuously to achieve the purpose of scrubbing.

The utility model discloses a design point lies in increasing the function of giving a rubdown with a damp towel on the basis that has the shower function to utilize rivers as the drive source completely, the rotatory massage head's of drive rotation and removal can be rubbed with the hands and wash the health in the great range, improve the travelling comfort and the efficiency of bathing, need not to connect the electricity, have avoided the electric leakage risk, make the security improve greatly.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. A hydrodynamic force rubs with a damp towel shower bath which characterized in that: the bath device comprises a shower part and a rubbing part, wherein the shower part is arranged above the rubbing part, and the top of the shower part is provided with a shower nozzle; the rubbing part comprises a shell, a massage device with the tail end exposed out of the shell, a lifting cylinder, a fixed clamping sleeve, a water pipe, a first reverser, a second reverser and a reversing valve, wherein the lifting cylinder, the fixed clamping sleeve, the water pipe, the first reverser, the second reverser and the reversing valve are arranged in the shell; the massage device comprises a hydrodynamic force rotating device, a rotating massage head and a frame, wherein a water pipe is connected with the hydrodynamic force rotating device to apply work so as to drive the rotating massage head to rotate, a lifting cylinder is of a telescopic structure, a fixing clamping sleeve fixes the frame at the middle section of the lifting cylinder, the hydrodynamic force rotating device is installed on the frame, one end of the water pipe is connected with a water inlet pipe and the other end of the reversing valve, which are connected with the hydrodynamic force rotating device through hoses, the water pipe is connected with the reversing valve, the lifting cylinder, a first reverser and a second reverser, and water flow in the water pipe flows out through two different outlets of the reversing valve and then is stretched towards different directions through the first reverser and the second reverser so as to drive the lifting cylinder to move up and down.

2. The hydrodynamic bath machine according to claim 1, wherein: the shell comprises an upper shell, a lower shell and a shell between the upper shell and the lower shell, and a moving groove for the massage device to move longitudinally is formed in the shell.

3. The hydrodynamic bath machine according to claim 2, wherein: the shower nozzle is connected with a shower water pipe, and the other end of the shower water pipe penetrates through the shell and then forms a shower water inlet pipe outside the lower shell.

4. The hydrodynamic bath machine according to claim 1, wherein: the lifting cylinder is divided into an upper part and a lower part by the frame, each part is composed of a plurality of sleeves which are mutually nested and the diameters of the sleeves are sequentially reduced towards two ends, the frame is fixed on the sleeve with the largest diameter by the fixed clamping sleeve, and the sleeve with the smallest diameter is connected with the water pipe.

5. The hydrodynamic bath machine according to claim 4, wherein: the number of the lifting cylinders is two and the lifting cylinders are arranged in parallel.

6. The hydrodynamic bath machine according to claim 1, wherein: two parallel guide posts are fixed in the shell, and the rack is connected with the guide posts in a sliding manner.

7. The hydrodynamic bath machine according to claim 1, wherein: the water inlet pipe of the water pipe is connected with a reversing valve water inlet of the reversing valve, the top of the reversing valve is a reversing valve upper outlet, the bottom of the reversing valve is a reversing valve lower outlet, the joint of the top of the lifting cylinder and the water pipe is a descending inlet, the bottom of the lifting cylinder is an ascending inlet, the first reverser is provided with a first reverser closing inlet, a first reverser water inlet, a first reverser opening inlet and a first reverser water outlet, the second reverser is provided with a second reverser closing inlet, a second reverser water inlet, a second reverser opening inlet and a second reverser water outlet, and the joint of the water pipe and the hose is a water outlet; the water pipe connects the lower outlet of the reversing valve with the ascending inlet, the closed inlet of the second reverser, the water inlet of the second reverser and the open inlet of the first reverser, connects the upper outlet of the reversing valve with the descending inlet, the closed inlet of the first reverser, the water inlet of the first reverser and the open inlet of the second reverser, and connects the water outlet of the second reverser and the water outlet of the first reverser with the water outlet.

8. The hydrodynamic bath machine according to claim 7, wherein: the first commutator and the second commutator are identical in structure and comprise a sleeve and a core body, the core body can be slidably arranged in the sleeve in a penetrating mode, a first channel with a large diameter and a second channel with a small diameter are formed in the sleeve, the core body is located at a first limiting block and a second limiting block, which are arranged on two sides of a water isolating ring and on two sides of the water isolating ring, of the first channel, the water isolating ring divides the first channel into two parts to form a first pressure cavity and a second pressure cavity, and the core body is located at a part in the second channel and is provided with a neck to enable a water through cavity to be formed in the second channel.

9. The hydrodynamic bath machine according to claim 7, wherein: the reversing valve is connected with a control handle, the control handle enables water flowing in from the reversing valve water inlet to flow out from the reversing valve upper outlet or the reversing valve lower outlet through moving up and down, and the control handle is located outside the shell.

10. The hydrodynamic bath machine according to claim 2, wherein: the upper shell and the lower shell are both provided with fixing plates.

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