The present invention relates to tools fastening or loosing nuts.
The invention has been devised particularly, although not necessarily solely, in relation to a wrench and socket for fastening or loosing nuts. More particularly, the invention relates to a basin wrench and socket.
The following discussion of the background art is intended to facilitate an understanding of the present invention only. The discussion is not an acknowledgement or admission that any of the material referred to is or was part of the common general knowledge as at the priority date of the application.
Replacing an old faucet is typically a cumbersome and time consuming task. This is particularly true in view that locking nuts that hold the old faucet to the basin need to be removed. Removal of the nuts can be cumbersome and time consuming because typically the basin nuts are frozen to the thread of the faucets due to corrosion or mineral buildup from years of water seepage.
Moreover, removal of the basin nuts can also be cumbersome because the nuts are located in areas of reduced space located in the lower portion of the basin. These areas of reduced space are formed due the bowl or bowls that are formed in the basins for holding of liquids for washing purpose.
Furthermore, in particular removal of spouts (see
It is against this background that the present invention has been developed.
According to a first aspect of the invention there is provided a tool for applying torque to a fastening means, the tool comprising a body having a first section adapted to receive the fastening means and a second section adapted to receive the torque, the first section and the second section being adapted for attachment to each other to transfer the torque to the first section, wherein the first section is adapted to allow piping to be located adjacent the second section during use of the tool to allow the first section to receive the fastening means.
Preferably, the first section comprises at least one means for gripping at least a portion of the fastening means for application of the torque thereto.
Preferably, the first section comprises at least one indentation for receiving a portion of a fastening means.
Preferably, the portion comprises a wing.
In a particular arrangement, the first section comprises first and second gripping means arranged in an opposite relationship with respect to each other to define two first clearances arranged in an opposite relationship with respect to each other, the clearances permitting, during use of the tool, piping to traverse the first section for location of the piping adjacent to the second section.
Preferably, the first and second section are arranged in a spaced apart relationship with respect to each other to define a second clearance between the first section and the second section to allow rotary movement of the tool during application of the torque to the fastening means.
In a particular arrangement, the distance between the first section and the second section (that define the second clearance) has a length of between about 34 to 54 mm.
Preferably, the tool further comprises a third section for joining the first and second section together.
Preferably, the third section is of reduced width with respect to the gripping means.
Preferably, the third section comprises reinforcement means.
Preferably, the reinforcement means comprises a plurality of ribs spaced apart with respect to each other.
Preferably, the third section is of variable size to allow varying of the distance between first section and the second section.
Preferably, the third section comprises two centre sections opposite with respect to each other to define the first two clearances.
In a particular arrangement, each centre section has a width of between about 9.6 mm to 15.5 mm defining the two first clearances.
In a particular arrangement, the two first clearances have a size of about 26.1 mm to about 32.4 mm.
In other arrangements, the two first clearances taper as they extend from the first section to the second section, their size being between about 26.1 to 32 mm at the first section and reducing to 24.6 to 30.6 mm at the second section.
Preferably, the second section is adapted to receive a handle to allow application of torque to the second section.
Preferably, the first, second and third section are configured to define a socket.
Preferably, the socket is adapted to receive the handle
Preferably, the handle is releasably attached to the socket.
Preferably, the handle comprises a plurality of bars, the bars being pivotally attached with respect to each other.
Preferably, the handle is of variable length.
Preferably, the fastening means comprises a nut for fastening a faucet.
Preferably, the nut comprises a hexagonal nut.
Preferably, the gripping means are adapted to receive a nut
Preferably, each gripping means comprise three sides.
Preferably, the gripping means comprises a centre section and two side sections extending diagonally outward from the centre section defining a substantially U-shaped section.
Preferably, the centre section of each gripping means comprises an indentation for receiving a portion of the nut. This arrangement is particularly advantageous because it allows fastening or loosening a faucet stem retention nut of the type having wings.
Preferably, the portion of the nut comprises a wing of the nut.
In a particular arrangement, the gripping means define a hexagonal nut.
According to a second aspect of the invention there is provided a socket for applying torque to a faucet nut located between a surface and a piping, the socket comprising a first section adapted to receive the nut and a second section adapted to receive the torque, the first section and the second section being attached to each other to transfer the torque to the first section, wherein the first section is adapted to allow the piping to be located adjacent the second section during use of the tool to allow the first section to receive the nut for applying torque to the nut.
Preferably, the first section comprises first and second gripping means arranged in an opposite relationship with respect to each other to define two first clearances arranged in an opposite relationship with respect to each other, the clearances permitting, during use of the socket, the piping to traverse the first section for location of the piping adjacent to the second section.
Preferably, the tool further comprises a third section for joining the first and second section together.
Preferably, the third section is of reduced width with respect to the gripping means.
Preferably, the second section is adapted to releasably receive a handle.
Further features of the present invention are more fully described in the following description of several non-limiting embodiments thereof. This description is included solely for the purposes of exemplifying the present invention. It should not be understood as a restriction on the broad summary, disclosure or description of the invention as set out above. The description will be made with reference to the accompanying drawings in which:
The fact that the distal section 14 is separated from the proximal section 16 defines a clearance 20 (the second clearance) between the distal and proximal section 14 and 16. The clearance 20 is adapted to receive the piping 28. As will be explained with reference to the method of operation of the tool 10, the clearance 20 allows rotation of the tool 10 during application of the torque to the connector nut 40 for loosening or fastening of the connector nut 40. In an arrangement, the clearance 20 may be about between 34 mm to 54 mm long.
Referring now to
Referring in particular to
Further, the fact that the distal section 14 comprises a plurality of gripping means 22 that are opposite with respect to each other defines a plurality of first clearances 24a and 24b—see
Further, the centre section 18 comprises a plurality of supports 26a and 26b. Each support 26 joins one of the gripping means 22 of the distal section 14 to the proximal section 16. In the particular arrangement shown in the figures, the supports 26 are of a reduced width with respect to the gripping means 22. As will be explained with reference to the method of operation of the tool 10, the reduced width of the supports 26 facilitates turning of the tool during manipulation (for example, loosening or fastening) of the nut.
We refer now to
It was mentioned that the tool 10 comprises a proximal section 16 to which the distal section 14 of the tool 10 is joined via the centre section 18. This proximal section 16 is adapted to receive torque for delivery to the distal section 14 during fastening or loosing of the nut 40. In a particular arrangement, the proximal section 16 comprises a first end 32 and a second end 34. The first end 32 is attached to the centre section 18 to which the distal section 14 is attached. The second end 34 is adapted for attachment of a tool to apply torque to the proximal section 16. As shown, in
As an example,
In an alternative arrangement, the tool 10 may be configured as a socket. The first end 32 of the socket is adapted to receive the distal section 14 of the tool 10 and the second end 34 is adapted to receive the square fitting 56 to allow releasably attaching the previously described T-handle 36. The socket may be adapted to receive a square fitting of a wrench such as, for example, a ratchet.
We refer now to
In operation, as shown in
Referring to
We refer now back to
Furthermore, it was mentioned earlier that the fact that the centre section 18 may be of a reduced width with respect to the gripping means 22 provides a plurality of clearances 24a and 24b. The size of the clearance 24a and 24b will determine the amount that the tool 10 may be turned during fastening or loosening of the nut 40. In accordance with the present embodiment of the invention, the width of the centre section 18 of a particular tool (in accordance with the present embodiment of the invention) may differ with respect to each other; in this manner, different tools 10 may be used for different faucets 42 differing in the type of tubing or the tubing arrangement located below the countertop 44.
In a particular arrangement, each centre section 18 has a width of about between 9.6 to 15.5 mm defining the two first clearances 24.
In a particular arrangement, the two first clearances have a size of about 26.1 mm to about 32.4 mm.
In other arrangements, the two first clearances taper as they extend from the first section to the second section, their size being between about 26.1 to 32.4 mm at the first section and reducing to 24.6 to 30.6 mm at the second section.
In a particular arrangement, the distance between the distal section 14 and the proximal section 16 (that define the second clearance 20) has a length between about 34 mm to 54 mm.
Furthermore, the above described arrangement of the tool 10 is configured for use in connection to conventional nuts such as hexagonal nuts. However, the tool 10 may be configured to accept connector nuts 40 of varied configurations and sizes.
For example, in a second arrangement of the tool 10 may be configured for receiving a faucet stem retention nut 66 of the type having wings 68 to facilitate rotation as shown in
Modifications and variations as would be apparent to a skilled addressee are deemed to be within the scope of the present invention.
Further, it should be appreciated that the scope of the invention is not limited to the scope of the embodiments disclosed. By way of example, the arrangement of the figures shows the plurality of gripping means 22 defining a hexagonal head adapted to apply torque to a hexagonal nut. However, the distal section may be configured to define any of shape so as to receive any type of nut.
Moreover, the centre section 18 has been described as having a particular fixed length. However, alternative arrangement of the tool 10, may include centre sections 18 of different fixed lengths. In a further particular arrangement, the centre section 18 of a particular tool may be adapted for varying is particular length.
In an arrangement, a particular embodiment of the invention may provide a kit comprising a plurality of sockets having heads of different shapes so as to loosen or fasten different type of nuts. For example, in an alternative arrangement of the present embodiment of the invention may include a double hex design such as a 12 pointed socket. In a particular arrangement, two of the points may be removed to allow a greater range of rotary movement during fastening or loosening of the nut 40.
Also, the sockets included in the kit may include centre sections 18 of different lengths and different width. This kit is particular useful because it allows handling a plurality of different configurations of faucets and nuts attached to different type of countertops 44.
In further embodiment of the invention there may be provided a tool 10 wherein the length of the centre section 18 may be variable to accommodate the various requirements depending on the type of applications for which the tool 10 is to be used.
Furthermore, the distal section 14 may be releasably attached to the proximal section 16. For example, in a the particular arrangement, the toll 10 may incorporate proximal sections that are adapted to releasably attaching the centre section so as to releasably attaching the distal section 14 to the proximal section 16.
Throughout the specification and claims, unless the context requires otherwise, the word “comprise” or variations such as “comprises” or “comprising”, will be understood to imply the inclusion of a stated integer or group of integers but not the exclusion of any other integer or group of integers.
Number | Date | Country | Kind |
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2014900789 | Mar 2014 | AU | national |
This application is a continuation-in-part of International Application No. PCT/AU2015/000115, filed Feb. 27, 2015, which claims the benefit of Australian Patent Application No. 2014900789 filed on Mar. 7, 2014, the disclosures of which are incorporated herein in their entirety by reference.
Number | Date | Country | |
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Parent | PCT/AU2015/000115 | Feb 2015 | US |
Child | 14757436 | US |