1. Field of the Invention
The present invention relates to a spraying head assembly, and more particularly to a spraying head assembly for a massaging tub.
2. Description of the Related Art
A conventional massaging tub in accordance with the prior art shown in
However, it is necessary to assemble the circulation pipe 6, the water outlet pipe 7 and the air guide pipe 8 in the tub body 1, thereby complicating the assembly process and increasing costs of assembly. In addition, the motor is operated to draw the water contained in the tub body 1 through the circulation head 2, the circulation pipe 6, the water outlet pipe 7 and the nozzles 4, so that the motor needs a larger power, and the water beam injected from the nozzles 4 is weakened. Further, the circulation head 2 is easily choked by an article, such as the towel or the like, so that the circulation head 2 forms a closed state, thereby wearing the motor due to the idling operation.
The primary objective of the present invention is to provide a spraying head assembly for a massaging tub.
Another objective of the present invention is to provide a spraying head assembly, wherein the water is pressurized by rotation of the helical blades of the vortex rotor and the helical plates of the water outlet valve seat to produce a strong water beam that is injected outward from the nozzle, thereby enhancing the massaging effect.
A further objective of the present invention is to provide a spraying head assembly, wherein the cover has a periphery formed with a plurality of water inlet holes, so that the spraying head assembly will not be blocked or choked by articles, thereby preventing the motor from being worn out due to an idling operation.
A further objective of the present invention is to provide a spraying head assembly, wherein the two water outlet openings of the impulse rotor can co-operate with the transverse bar of the nozzle, so that the water beam injected from the nozzle has an impulse oscillation effect, thereby greatly enhancing the massaging effect.
A further objective of the present invention is to provide a spraying head assembly, wherein each of the two water outlet openings of the impulse rotor has a chamfered face, so that the water pressure can push the impulse rotor to rotate successively.
A further objective of the present invention is to provide a spraying head assembly, wherein the spraying head assembly can be detached from the massaging tub easily and conveniently, thereby facilitating replacement and maintenance of the spraying head assembly.
In accordance with the present invention, there is provided a spraying head assembly, comprising:
Further benefits and advantages of the present invention will become apparent after a careful reading of the detailed description with appropriate reference to the accompanying drawings.
a is a partially enlarged cross-sectional view of the spraying head assembly as shown in
Referring to the drawings and initially to
The housing 10 is substantially cylindrical shaped, and has a periphery provided with a plurality of semi-circular posts 11. The housing 10 has an opened first end having a periphery formed with an annular lip 12. The housing 10 is provided with an O-ring 121 rested on a side of the lip 12. The housing 10 is provided with a plurality of locking screws 122 each extended through the lip 12, and a plurality of urging plates 123 each screwed on a respective one of the locking screws 122 and each connected to a respective one of the semi-circular posts 11. The lip 12 of the housing 10 is formed with a plurality of locking holes 124 for passage of the locking screws 122. The housing 10 has a closed second end having a center formed with a through hole 13 and having a side formed with an air inlet hole 14 connected to an inside of the housing 10. Preferably, the air inlet hole 14 of the housing 10 is arranged in an oblique manner.
The cover 20 is secured on the lip 12 of the housing 10. The cover 20 has a center formed with a stepped mounting hole 21 having a periphery formed with an annular mounting flange 22. The cover 20 has a periphery formed with a plurality of water inlet holes 23.
The water outlet valve seat 30 is mounted on the cover 20 and received in the housing 10. The water outlet valve seat 30 has a first end provided with a cylinder 31 secured on the mounting flange 22 of the cover 20, and a second end provided with a disk 32. The cylinder 31 of the water outlet valve seat 30 has a bottom face having a center formed with a circular recess 312 having a periphery formed with a plurality of water outlet holes 311. The disk 32 of the water outlet valve seat 30 has an inner face having a center formed with a protruding shaft 322 and having a periphery formed with a plurality of helical plates 321 arranged in a radiating manner.
The water outlet valve cover 40 is secured on the water outlet valve seat 30 and received in the housing 10. The water outlet valve cover 40 has an arcuate shape. The water outlet valve cover 40 has a center formed with a water inlet hole 42 and has a periphery provided with a plurality of support legs 41.
The vortex rotor 50 is rotatably mounted on the water outlet valve seat 30 and received in a space between the water outlet valve seat 30 and the water outlet valve cover 40. The vortex rotor 50 includes a sucker-shaped main body 51 having a first side provided with a hollow mounting post 52 protruded outward from of the main body 51 and mounted on the shaft 322 of the disk 32 of the water outlet valve seat 30 and a second side formed with a square insertion hole 511. The main body 51 of the vortex rotor 50 has a periphery provided with a plurality of helical blades 53.
The bushing 60 is mounted in the mounting hole 21 of the cover 20 and extended into the cylinder 31 of the water outlet valve seat 30. The bushing 60 includes a stepped annular body 61 having a periphery formed with a plurality of elastic plates 62 extended outward, and a rubber ring 622 mounted on the elastic plates 62. Each of the elastic plates 62 of the bushing 60 has an outer wall having a first end formed with a rib 621 located adjacent to the annular body 61 and snapped on an inner face of the mounting hole 21 of the cover 20, and a second end formed with an arc-shaped groove 624 (see
The nozzle 70 is rotatably mounted in the bushing 60 and is elastically retained by the urging edge 623 of each of the elastic plates 62 of the bushing 60. The nozzle 70 is a semi-spherical hollow body, and has an end formed with a transverse bar 71 formed with a protruding shaft 72.
The impulse rotor 80 is mounted in the nozzle 70 and has a center formed with a protruding hollow mounting stud 81 mounted on the shaft 72 of the nozzle 70 and has a periphery formed with two radially opposite water outlet openings 82 each having a chamfered face.
The motor 90 is secured on the second end of the housing 10 by a locking plate 93, and has an end face having a center provided with a square rotation shaft 91 extended through the through hole 13 of the housing 10 and the water inlet hole 42 of the water outlet valve cover 40 and inserted into the insertion hole 511 of the vortex rotor 50. The end face of the motor 90 has a periphery provided with a plurality of threaded rod 92 each screwed into the housing 10.
In assembly, the bushing 60 is mounted in the mounting hole 21 of the cover 20, and the rib 621 of each of the elastic plates 62 of the bushing 60 is snapped on the inner face of the mounting hole 21 of the cover 20, so that the bushing 60 is secured on the cover 20. Then, the impulse rotor 80 is mounted in the nozzle 70, and the mounting stud 81 of the impulse rotor 80 is rotatably mounted on the shaft 72 of the nozzle 70. Then, the nozzle 70 is rotatably mounted in the bushing 60 and is elastically retained by the urging edge 623 of each of the elastic plates 62 of the bushing 60. Then, the cylinder 31 of the water outlet valve seat 30 is secured on the mounting flange 22 of the cover 20, so that the water outlet valve seat 30 is combined with the cover 20. Then, the mounting post 52 of the vortex rotor 50 is mounted on the shaft 322 of the disk 32 of the water outlet valve seat 30, so that the vortex rotor 50 is rotatably mounted on the water outlet valve seat 30. Then, the water outlet valve cover 40 is secured on the water outlet valve seat 30, so that the vortex rotor 50 is rotatably mounted between the water outlet valve seat 30 and the water outlet valve cover 40. Then, the cover 20 is secured on the lip 12 of the housing 10. Finally, the motor 90 is secured on the second end of the housing 10 by a locking plate 93, and the rotation shaft 91 of the motor 90 is extended through the through hole 13 of the housing 10 and the water inlet hole 42 of the water outlet valve cover 40 and inserted into the insertion hole 511 of the vortex rotor 50.
In operation, referring to
In addition, each of the two water outlet openings 82 of the impulse rotor 80 has a chamfered face, so that the water pressure can push the impulse rotor 80 to rotate successively. Further, when the two water outlet openings 82 of the impulse rotor 80 are rotated to align with the transverse bar 71 of the nozzle 70, the water beam is stopped by the transverse bar 71 of the nozzle 70, so that the water beam has an impulse oscillation effect. Further, the air is introduced through the air inlet hole 14 of the housing 10 into the housing 10 by the siphon effect, so that the water injected from the nozzle 70 contains air bubbles.
Accordingly, the spraying head assembly of the present invention has the following advantages.
Although the invention has been explained in relation to its preferred embodiment(s) as mentioned above, it is to be understood that many other possible modifications and variations can be made without departing from the scope of the present invention. It is, therefore, contemplated that the appended claim or claims will cover such modifications and variations that fall within the true scope of the invention.