The present invention relates to a universal tap adapter, namely a tap fitting that can be connected to a variety of taps independently of their model or of the shape and cross-section of their nozzle. Such a tap fitting works as a connector between the tap and a user device, such as an ejector, a water jet or a shower, for example by means of a quick coupling and a hose. A connector of this kind is required when the above user device is used away from home, for example, when travelling, and the quick coupling of the user device is not applicable to the currently available tap.
There are several documents that describe adapters or connectors, among the others U.S. Pat. Nos. 778,491, 1,734,757, 2,219,813, and 4,822,076. They disclose adapters having some common features: all of them comprise a collar-shaped retaining upper part that is designed to be fixed to a tap generally by means of three angularly equidistant screws, and an attachment lower part for coupling the adapter to a user device. The attachment lower part is connected, by means of threaded coupling, to the retaining upper part, and interposed between the upper part and the lower part is an annulus-shaped flat gasket. The upper face of the flat gasket is maintained adherent to the tap nozzle by tightly screwing the attachment lower part to the retaining upper part.
The adapters according to the above mentioned patents have some drawbacks. Structurally, a drawback depends on the fact that they are formed by a considerable number of parts that require precision machining as they are functionally joined between them. Other drawbacks occur in the installation, which on the contrary should be quick and comfortable since the adapter is installed on the tap only when needed and then removed from it. In the mentioned devices instead the retaining upper part is locked on the tap nozzle by operating individually on the three screws, and subsequently the coupling of the attachment lower part must be adjusted to the retaining upper part. All the screws must be tightened evenly so that the tap nozzle is centred on the flat gasket, otherwise there is a risk of an imperfect seal. Functionally, a single centrally perforated flat gasket does not guarantee an effective seal, unless the coupling between the retaining upper part and the attachment lower part is adjusted with precision.
An adapter of the same type of those above mentioned that is disclosed in U.S. Pat. No. 1,292,524 has a gasket in the form of a hollow truncated conical elastic washer. A peripheral ring of the gasket is clamped between the retaining upper part and the attachment lower part, and the walls of the gasket are converging and tapered downwardly to adhere to the tap nozzle. A lower end of the truncated conical elastic washer is free and is materially smaller than the tap nozzle, so that it must be stretched in order to pass over the latter. The adapter according to the above patent uses the pressure of the water which enters the attachment lower part and presses the truncated conical elastic washer against the tap, thereby assisting the elasticity of the material in preserving a leak-tight joint.
Therefore, U.S. Pat. No. 1,292,524 provides an adapter which solves the problem of the hermetic seal; since, however, the truncated conical elastic washer must be chosen in function of the diameter of the tap nozzle, the adapter as proposed is not applicable to each tap nozzle. Moreover, the adapter according to U.S. Pat. No. 1,292,594 as well as the devices according to the aforementioned patents, has screws that must be screwed one by one in the retaining upper part to the tap nozzle with consequent drawbacks as above mentioned.
Cited as relevant in a previous research on a national patent application which relates to the same invention are French patent FR1.128.637 and U.S. Pat. No. 6,572,154.
FR1.128.637 concerns a universal fitting of the type in question consisting of a cylindrical housing. Screwed in an upper edge of the cylindrical housing are screws which serve to fasten the universal fitting to a tap nozzle of any diameter. The housing has a threaded hole in the bottom to which a threaded upper end of a tubular element is screwed. The tubular element has both a collar and a threaded lower part. A flanged nut supporting the collar of a tube of a user device can be screwed in said threaded lower part. An annular gasket of plastics is mounted in the housing, and a metal washer being placed under the annular gasket of plastics abuts the upper end of the tubular element. The metal washer according to the cited patent has not a function of hermetic seal with the body of the adapter.
U.S. Pat. No. 6,572,154 describes a conical fitting without thread to mechanically connect pipes of fluid transmission. The fitting comprises a diametrically sealed piston having a frustum-shaped profile which engages a corresponding end of a tube for fluid transmission. The mechanical connection is obtained by both the action of a compressed spring and the hydrostatic pressure of the fluid flowing through the fitting.
Therefore, one object of the invention is to provide a universal tap adapter which allows a hermetic seal to be obtained by using a flat gasket.
Another object of the invention is to provide a universal tap adapter having a retaining upper part and an attachment lower part that do not require an adjustment thereof when the universal tap adapter has to be applied to a tap nozzle.
A further object of the invention is to provide a universal tap adapter made from a small number of parts.
Moreover, an object of the invention is to provide a universal tap adapter that have a very compact construction in a manner that there is no need to combine together various parts because these are already assembled and cooperate with each other without further adjustments.
Yet another object of the invention is to provide a universal tap adapter in which it is not necessary to tighten a lot of clamping screws to a tap nozzle. With reference to the latter object, there is already a device that allows the transmission of the movement of a first screw to other two screws that then are screwed at the same time to the first one. Such a device is described in U.S. Pat. No. 2,985,456 which relates to a collet chuck for lathes in which three screws are operable simultaneously thanks to the fact that their lower end is provided with a toothed head engaging a ring gear that is provided with an internal toothing. The above mentioned device relative to another field of the technique, has an arrangement of cooperating parts which make it complex and not applicable to a tap adapter.
Further characteristics and advantages of the present invention will become most clear from the indicative, and therefore non-limiting, description of embodiments of a universal tap adapter as illustrated in the accompanying drawings in which:
Referring to the figures, shown in
Such a lip gasket is effectively applied in seal with a tap nozzle in a universal adapter or connector, as shown below in various embodiments of the invention. In particular, in
The spring 5 then acts both as an element for centering the upper polymeric washer 2 and the lip gasket 3, and as a regulator of the pressure with which they are pressed against the nozzle of the tap R.
As shown in
It is evident that means for retaining the universal adapter to the tap nozzle should be provided. This is achieved thanks to the fact that the housing 6 of the spring seal 1 is provided inside of an adapter body 10 having an upper part intended to be fixed to the nozzle of the tap R through a device with three points of retention.
With reference again to the first embodiment, the adapter body 10 comprises a central portion 11 having a vertical axis y, the central portion 11 being provided with meridian ribs 12 adapted to facilitate the grip. The central portion 11, which creates the space for the spring seal 1, terminates at the bottom with rapid attachment means which serve for the attachment of a hose (not shown) of a user device, such as an injector, an irrigator or a shower. The attachment means are represented in
Received in the circumferential groove 16 with clearance fit is a ring gear 19 having teeth 20 formed on its lateral surface, that is, the upper one in
Placed above the crown 15 thus formed is a cover 30 having three protruding upward radial half seats 31 for the screws 18, the three radial half seats 31 corresponding to the three radial half seats 17 of the top face of the crown 15, as previously described. The cover 30 is fastened to the crown 15 by means of threaded couplings or by welding the respective materials, e.g. a suitable plastics. The cover 30 serves to lock the nuts 24 in their seats 23, and the heads 22 of the screws 18 are free to move radially when one of them is rotated by the hexagon wrench 29. With the rotation of a single screw 18 being meshed with the teeth 20 of the ring gear 19, the ring gear 19 is rotated and simultaneously transmits the motion to the other screws 18 meshed with it. Due to the arrangement of the screws in their seats formed from the combination of half seats 17 on the crown 15 and of the half seats 31 on the cover 30, the screws 18 are free to move only radially. When the ring gear 19 rotates in one direction, typically clockwise, all the screws 18 advance towards the vertical axis y of the central portion 11, i.e. towards the center of the crown 15 above the spring seal 1. Each screw stem 27 being meshed with its nut 24, moves forward together with the others in order to come into contact with the nozzle of the tap R, so as to retain the adapter thereto. When a screw 18 is rotated counter-clockwise, also the ring gear 19 rotates counter-clockwise and moves away simultaneously all the screws from the tap R, with result of allowing the detachment of the adapter from the tap R. Formed on the cover 30 are three recesses 32 adapted to receive and retain the wrench 29 through its handle when the universal adapter is not installed on the tap.
Reference is made now to
Reference is made now to
When the cover 49 is manually rotated counter-clockwise, the prismatic inserts 46 constrained with it in the respective radial compartments 50 radially advance along the continuous protruding spiral 45 towards the axis of the central portion 43 to clamp the tap R. On the contrary, when the cover 49 rotates clockwise, the prismatic inserts 46 simultaneously move away from the nozzle of the tap R, allowing the detachment of the adapter from the tap itself.
It should be understood that the retaining device in the second embodiment of the universal adapter is similar, as for the operation, to that of the variant of the first embodiment as the retaining device in the second embodiment requires no secondary means for the installation of the adapter to the tap nozzle and the removal from it. However, the shape of the retaining means and the way of their radial movement are different.
Number | Date | Country | Kind |
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RM2012A000663 | Dec 2012 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2013/077964 | 12/23/2013 | WO | 00 |