1. Field of the Invention
The present invention relates to a multi-function shower head, and more particularly to an outflow switch mechanism of a multi-function shower head.
2. Description of the Prior Art
Nowadays, a shower head is an essential apparatus for taking a bath. An improved shower head is developed to have different outflow modes, such as a swing outflow mode, a massage outflow mode, a bubble outflow mode and the like. The conventional shower head has multiple water passages and water chambers to cooperate with an outflow panel to achieve multi-function outflow modes. The outflow panel is turned to switch the outflow modes. The user has to switch the outflow mode with both hands. The operation way is laborious and inconvenient. If the panel is used to a non-circular shower head, it is unable to turn the panel for switching outflow mode.
German Patent No. DE 102009008196A discloses a shower head switch which can be switched with one hand. The shower head switch comprises a water division plate which has a plurality of one-way gradient gears. An outflow body has a plurality of positioning grooves and the bottom of each positioning groove has a gradient surface. A push block with two gradient toothed surfaces cooperates with a push button and a return spring to achieve rotation of the water division plate. The switch can be operated with one hand.
The switch can be operated conveniently. However, the water division plate is driven by the push block having two gradient toothed surfaces. The push block is small in size, so it is difficult to process. The structure is complicated. It is difficult to process and mate with each part. The parts will suffer a lot of wear and tear after a period of time to influence the service lift.
Accordingly, the inventor of the present invention has devoted himself based on his many years of practical experiences to solve these problems.
The primary object of the present invention is to provide an outflow switch mechanism of a multi-function shower head. The outflow switch mechanism is simple in construction, and the feeling of switching by one hand is convenient.
In order to achieve the aforesaid object, the outflow switch mechanism is disposed in a water path of the shower head and comprises an inner body, a button, a return spring, a valve shaft, a water division plate, a support press spring and a cover. The inner body has a valve chamber extending up and down. The upper portion of the valve chamber is formed with a seat to accommodate the return spring and the button. The lower portion of the valve chamber is formed with a chamber having a water inlet to accommodate the water division plate, the support press spring and the cover. A valve path for accommodating the valve shaft is defined between the seat and the chamber. The button is connected with an upper end of the valve shaft. The lower portion of the valve path is formed with an enlarged seat. The enlarged seat has longitudinal sliding grooves on a side wall thereof and a projecting rib formed between the sliding grooves. The lower portion of the valve shaft extends in the enlarged seat. The bottom of the projecting rib has a gradient guide surface. The water division plate has a toothed block on an upper central surface thereof corresponding to the sliding grooves. The top of the toothed block has a gradient surface corresponding to the gradient guide surface of the projecting rib. The water division plate further has a magnet thereon. The cover has a magnet thereon.
Preferably, the water division plate has one or more magnets.
Preferably, the number of the magnet of the cover corresponds to the number of the sliding grooves, and the number of the sliding grooves corresponds to the number of a function water chamber.
Preferably, a support block is provided at the lower end of the button for insertion of the valve shaft, and the support block cooperates with a seal member to seal the valve shaft and a valve path.
Preferably, the valve shaft is a rod, and the lower portion of the valve shaft having a stop block on a side wall thereof to slide along the sliding groove.
Preferably, the water division plate has a crescent notch and at least one toothed block on an upper central surface thereof, and the water division plate has a counterbore on a lower central surface thereof to accommodate the support press spring.
Preferably, the lower surface of the water division plate further has fixing recesses to fix two magnets, and the two magnets are disposed radially and symmetrically.
Preferably, the cover is an end cover to cover the chamber, and the cover has a central protruding post extending upward for the support press spring to fit thereon.
Preferably, the cover comprises four magnets on a lower surface thereof, and the magnets are spaced evenly and fixed on the cover.
Accordingly, the one-way bevel toothed block of the water division plate is to cooperate with the gradient guide surface of the projecting rib, and the magnet of the water division plate is to cooperate with the magnet of the cover. The water division plate will be turned by the repulsion of the homogeneous magnets to switch the water outflow mode when it departs from the inner body. The whole mechanism is simple in construction, and the parts can be processed with ease to enhance the work efficiency. The present invention uses the repulsion of the homogeneous magnets to slant the angle and the switch of the bevel toothed block, preventing the water division plate to get contact with the parts direct. The feeling of switching by one hand is convenient.
Embodiments of the present invention will now be described, by way of example only, with reference to the accompanying drawings.
As shown in
The inner body 1 is a water inlet pipe of the shower head. The inner body 1 has a vertical water path with a valve chamber 11 extending up and down. The upper portion of the valve chamber 11 is formed with a seat 12 for movement of the button 2. The lower portion of the valve chamber 11 is formed with a chamber 13 for movement of the water division plate 5. A valve path 14 for accommodating the valve shaft 4 is defined between the seat 12 and the chamber 13. The lower portion of the valve path 14 is formed with an enlarged seat 15 to cooperate with the water division plate 5. The enlarged seat 15 has longitudinal sliding grooves 151 on a side wall thereof and projecting ribs 153 formed between the sliding grooves 151. The number of the sliding grooves 151 corresponds to the number of water chambers. In this embodiment, there are four sliding grooves. The bottom of each projecting rib 153 has a gradient guide surface 152. As shown in
The button 2 is disposed in the seat 12. The return spring 3 is disposed between the button 2 and the seat 12. The button 2 is biased by the spring 3 to extend out of the seat 12. The button 2 is connected to the upper end of the valve shaft 4 so that the button 2 and the valve shaft 4 are synchronously moved. A support block 8 is provided at the lower end of the button 2 for insertion of the valve shaft 4. The support block 8 cooperates with a seal member to seal the valve shaft 4 and a valve path 14.
The valve shaft 4 is a rod. The lower portion of the valve shaft 4 has stop blocks 41 on a side wall thereof to slide along the sliding grooves 151. The stop blocks 41 can guide the valve shaft 4 to move up and down and are confined in the enlarged seat 15 at the bottom of the valve path 14.
The water division plate 5 has a crescent notch 51 and four toothed blocks 52 on an upper central surface thereof. The number of the toothed block may be one. Four toothed blocks ensures the function of the parts. The top of each toothed block 52 has a gradient surface 521 corresponding to the gradient guide surface 152 of the corresponding sliding groove 15, namely, each toothed block 52 is a bevel gear. The water division plate 5 has a counterbore 53 on a lower central surface thereof to accommodate the support press spring 6. The lower surface of the water division plate 5 further has fixing recesses to fix magnets 54. The magnets 54 are disposed radially and symmetrically. The number of the magnets 54 may be one or more.
The cover 7 is an end cover to cover the chamber 13. The cover 71 has a central protruding post 71 extending upward for the support press spring 6 to fit thereon. The protruding post 71 extends in the counterbore 53 of the water division plate 5, providing a guide effect. A seal is provided on the outer edge of the cover 7 to seal the chamber 13. The cover 7 comprises four magnets 72 on a lower surface thereof. The magnets 72 are spaced evenly and fixed on the cover 7.
Referring to
When the outflow switch mechanism of the present invention is in a normal state, as shown in
When the outflow switch mechanism of the present invention is operated, as shown in
In the aforesaid embodiment, the number of the magnets 72 of the cover 7 is four and the turning angle of the water division plate 5 is explained as an example, they can be changed and are not limited. The number of the magnets and the turning angle of the water division plate can be changed according to the number of the water outflow modes. Through the magnet to drive the water division plate 5, the present invention can switch the water outflow modes.
Accordingly, the one-way bevel toothed block 52 of the water division plate 5 is to cooperate with the gradient guide surface 152 of the projecting rib 153, and the magnet 54 of the water division plate 5 is to cooperate with the magnet 72 of the cover 7. The water division plate 5 will be turned by the repulsion of the homogeneous magnets to switch the water outflow mode when it departs from the inner body 1. The whole mechanism is simple in construction, and the parts can be processed with ease to enhance the work efficiency. The present invention uses the repulsion of the homogeneous magnets to slant the angle and the switch of the bevel toothed block, preventing the water division plate to get contact with the parts direct. The feeling of switching by one hand is convenient.
Although particular embodiments of the present invention have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the present invention. Accordingly, the present invention is not to be limited except as by the appended claims.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2011/072580 | 4/11/2011 | WO | 00 | 11/5/2012 |
Publishing Document | Publishing Date | Country | Kind |
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WO2012/139267 | 10/18/2012 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3066873 | Flick et al. | Dec 1962 | A |
5984207 | Wang | Nov 1999 | A |
6619567 | Ouyoung | Sep 2003 | B1 |
7201332 | Wang et al. | Apr 2007 | B2 |
7341239 | Hodel et al. | Mar 2008 | B2 |
Number | Date | Country | |
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20140061339 A1 | Mar 2014 | US |