The present invention relates to a kind of shower equipment, and more specifically relates to an overhead showerhead enabling auto-cleaning of nozzle openings thereof.
An overhead showerhead is a kind of shower equipment positioned above a user's head for showering. An overhead showerhead now available in the market comprises a water pipe having a connection port, a rear cover connected to the water pipe and a showerhead body. A sealed cavity is formed between the showerhead body and the rear cover. The showerhead body is provided with a plurality of nozzles for ejection of water. Water flows continuously into the sealed cavity and then ejects out of the nozzles.
Tap water contains sediments which may be agglomerated at the nozzles. These sediments cannot be easily removed and they may block the nozzles as time goes by. Therefore, it is necessary to dismount the overhead showerhead for cleaning and thus causing much inconvenience to users.
In view of the aforesaid disadvantages now present in the prior art, the present invention provides an overhead showerhead which enables auto-cleaning of its nozzle openings. Therefore, the present invention can clean the nozzles of the overhead showerhead automatically. Accordingly, the present invention is more convenient to use since it is not necessary to dismount the overhead showerhead for cleaning.
To attain the above object, the present invention provides an overhead showerhead enabling auto-cleaning of nozzle openings thereof; the overhead showerhead comprises a showerhead shell and a water ejection surface front cover; the showerhead shell and the water ejection surface front cover are removably connected; a plurality of nozzles are provided on the water ejection surface front cover; a first cavity is provided inside the showerhead shell; a water ejection device, a cleaning disc and a driving device for driving the cleaning disc to move up and down are provided inside the first cavity; the cleaning disc is provided with a plurality of cleaning rods; positioning of the cleaning rods corresponds to positioning of the nozzles.
Preferably, the driving device comprises a rotor assembly; two sides of the rotor assembly are provided with two eccentric wheels, one at each side; the cleaning disc is provided with lateral rods; the eccentric wheels and the lateral rods are connected by link rods for transmission of motion; one end of each of the link rods sleeves on a respective eccentric wheel of the eccentric wheels, another end of each of the link rods sleeves on a respective lateral rod of the lateral rods.
Preferably, the water ejection device comprises a spherical head and a seat; the spherical head comprises a spherical water outlet front portion and a water inlet end portion; the water outlet front portion of the spherical head is inserted into the seat; a seal ring is provided inside the seat.
Preferably, the water outlet front portion of the spherical head is sleeved with a fixation ring.
Preferably, a screw nut locking part for fixing the water ejection device is provided at a bottom part of the seat; the screw nut locking part is provided with outer screw threads; an inner portion of the showerhead shell is provided with inner screw threads; the screw nut locking part and the showerhead shell are connected via the outer screw threads and inner screw threads provided respectively on the screw nut locking part and the inner portion of the showerhead shell; a pressing block for mounting the rotor assembly is provided inside the screw nut locking part.
The present invention has the following beneficial effects: The present invention is an overhead showerhead enabling auto-cleaning of nozzle openings thereof; the overhead showerhead comprises a showerhead shell and a water ejection surface front cover; the showerhead shell and the water ejection surface front cover are removably connected; a plurality of nozzles are provided on the water ejection surface front cover; a first cavity is provided inside the showerhead shell; a water ejection device, a cleaning disc and a driving device for driving the cleaning disc to move up and down are provided inside the first cavity; water enters the water ejection device through a pipe and is then being ejected by the water ejection device; water ejected by the water ejection device has a power of thrust to drive the rotary assembly to rotate; since the two sides of the rotary assembly are provided with eccentric wheels, rotation of the rotary assembly will drive the eccentric wheels to rotate as well; due to motion transmission where motion is transmitted from the eccentric wheels via the link rods to the lateral rods, rotation of the rotor assembly drives the cleaning disc to move up and down and therefore allow the cleaning rods to remove unwanted substances clogging the nozzles by removing the unwanted substances out through the nozzles. The present invention is convenient to use since it can clean the nozzles of the overhead showerhead automatically without the need of dismounting the overhead showerhead for cleaning.
1: showerhead shell; 2: water ejection surface front cover; 21: nozzles; 3: cleaning disc; 31: cleaning rod; 32: lateral rods; 41: rotor assembly; 42: eccentric wheels; 5: link rods; 61: spherical head; 611: water outlet front portion; 612: water inlet end portion; 62: seat; 63: fixation ring; 7: seal ring; 8: screw nut locking part; 81: pressing block.
The present invention is described further in detail below with reference to an embodiment and
As shown in
In the present embodiment, the water enters the water ejection device through a pipe and is then being ejected by the water ejection device. Water ejected by the water ejection device has a power of thrust so that the driving device can drive the cleaning disc 3 to move up and down and therefore allow the cleaning rods 31 to remove unwanted substances clogging the nozzles by removing the unwanted substances out through the nozzles. The present invention is convenient to use since it can clean the nozzles of the overhead showerhead automatically without the need of dismounting the overhead showerhead for cleaning.
An embodiment of the driving device is detailed as follows: the driving device comprises a rotor assembly 41. Two sides of the rotor assembly 41 are provided with two eccentric wheels 42, one at each side. The cleaning disc 3 is provided with lateral rods 32. The eccentric wheels 42 and the lateral rods 32 are connected by link rods 5 for transmission of motion. One end of each of the link rods 5 sleeves on a respective eccentric wheel of the eccentric wheels 42, another end of each of the link rods 5 sleeves on a respective lateral rod of the lateral rods 32. Since the water ejected by the water ejection device has a power of thrust which can drive the rotor assembly 41 to rotate while the eccentric wheels 42 are provided at the two sides of the rotor assembly 41, rotation of the rotor assembly 41 will drive the eccentric wheels 42 to rotate as well. Due to motion transmission where motion is transmitted from the eccentric wheels 42, via the link rods 5, and to the lateral rods 32, rotation of the rotor assembly 41 will drive the cleaning disc 3 to move up and down so that the cleaning rods 31 can remove the unwanted substances clogging the nozzles by removing the unwanted substances out through the nozzles.
An embodiment of the water ejection device is detailed as follows: the water ejection device comprises a spherical head 61 and a seat 62. The spherical head 61 comprises a spherical water outlet front portion 611 and a water inlet end portion 612. The water outlet front portion 611 of the spherical head 61 is inserted into the seat 62. A seal ring 7 is provided inside the seat 62. The water outlet front portion 611 of the spherical head 61 is sleeved with a fixation ring 63. A screw nut locking part 8 for fixing the water ejection device is provided at a bottom part of the seat 62. The screw nut locking part 8 is provided with outer screw threads. An inner portion of the showerhead shell 1 is provided with inner screw threads. The screw nut locking part 8 and the showerhead shell 1 are connected via the outer screw threads and inner screw threads provided respectively on the screw nut locking part 8 and the inner portion of the showerhead shell 1. A pressing block 81 for mounting the rotor assembly 41 is provided inside the screw nut locking part 8.
The working principle of the present invention is detailed as follows: water enters into the spherical head 61 through the water inlet end portion 612 of the spherical head 61; due to the effect of the spherical head 61, water ejected from the water outlet front portion 611 of the spherical head 61 has a power of thrust which drives the rotor assembly 41 to rotate; since the two sides of the rotor assembly 41 are provided with eccentric wheels 42, rotation of the rotor assembly 41 also drives the eccentric wheels 42 to rotate; due to motion transmission where motion is transmitted from the eccentric wheels 42 via the link rods 5 and to the lateral rods 32, rotation of the rotor assembly 41 will eventually drive the cleaning disc 3 to move up and down and therefore allow the cleaning rods 31 to remove the unwanted substances clogging the nozzles 21 by removing the unwanted substances out through the nozzles 21. The present invention is convenient to use since it is not necessary to dismount the overhead showerhead for cleaning.
The above description is only a preferred embodiment of the present invention. The present invention should not be considered limited to the above description. A person skilled in this field of art may make changes to the specific implementation of the present invention and to the scope of application of the present invention based on the inventive idea of the present invention.
Number | Date | Country | Kind |
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2014 2 0650822 U | Nov 2014 | CN | national |
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Number | Date | Country | |
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20160121344 A1 | May 2016 | US |