GB2457291A - Mounting bracket - Google Patents

Abstract

A mounting bracket (10) including at least two pipe fittings, each for connection between a water supply pipe and an outlet, and a mounting member extending between the pipe fittings. The pipe fittings and mounting member are constructed as a single piece integral article. The mounting member is provided with a top wall (26) allowing the mounting member to be mounted to a downwardly facing surface and a rear wall (22) allowing the mounting member to be mounted against a forwardly facing surface. Flanges (32) are provided around the outlets (2) allowing the mounting bracket to be mounted against a rearwardly facing surface.

Description

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MOUNTING BRACKET

The present invention relates to a mounting bracket for providing water outlets on an architectural structure and a method of providing water outlets on an architectural structure by using connector attachments of the mounting bracket.

It is common practice in building and plumbing fields to provide water outlets which protrude from a forward facing surface of an architectural structure. The water outlets may be connected to any desired water appliance, such as a shower unit, a bath fill unit, a tap/faucet unit, etc. The water outlets are preferably mounted to the architectural structure in a secure manner, in particular so that they are structurally supported and held in the required position and orientation. In this way, it becomes easy for a user to fit the required water appliance to the water outlets protruding from the architectural structure.

Particularly where push-fit water outlets are used, it is desirable for the water outlets to be positioned with a predetermined fixed relative spacing and orientation.

Traditionally, this requires careful mounting of the water outlets in the architectural structure.

It is proposed to provide a support feature which connects together two water outlets so as to ensure their relative spacing. However, the provision of this support feature can be prohibitively expensive in certain circumstances and additional features must be provided on the support feature and/or the water outlets to enable their interconnection.

The present application also recognises the problem that it may be desired to provide water outlets in a variety of different architectural structures. This may require a variety of different support features and/or make fitting of the water outlet difficult.

According to the present invention, there is provided a mounting bracket including: at least two pipe fittings, each pipe fitting including a respective pipe attachment and a respective pipe connector and defining a respective internal

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passageway connecting the respective pipe attachment to the respective connector attachment, each respective pipe attachment being configured for connection to the end of a supply pipe, each respective connector attachment being configured for attachment to a connector for a water appliance and each passageway following an L-shaped path such that respective pipe attachments and connector attachments face in substantially orthogonal directions; and a mounting member extending between the pipe fitting in a first direction and supporting the pipe fittings with a predetermined fixed relative spacing and a fixed onentation such that all pipe attachments face substantially in a second direction and all connector attachments face substantially in a third direction; wherein the mounting member includes features by which to attach the mounting bracket to an architectural structure; and the mounting bracket is a single piece integral article.

By providing the water outlets and mounting member together as a single piece integral article, the relative spacing and orientation of the water outlets is ensured without a user needing to take any special care and costs can be significantly reduced.

Preferably, the mounting member includes a rear wall extending between the pipe fittings in the first and second direction and defining through holes extending in the third direction by which to mount the mounting bracket.

This is particularly advantageous for use with an architectural structure including a vertical forwardly facing front surface and also a vertical forwardly facing rear surface located behind the front surface. The present invention provides a method whereby the mounting bracket can be mounted to the rear surface of the architectural structure by mounting the rear wall of the mounting member to that rear surface of the architectural structure.

The water outlets face forwardly with the connector attachments protruding forwardly from the front surface of the architectural structure facing in the third direction.

The mounting member may in addition or alternatively include a top wall extending between the pipe fittings in the first and third directions and defining through holes extending in the second direction by which to mount the mounting bracket.

In this way, the present invention may provide a method for use with an architectural structure having a downwardly facing surface. For example, the architectural structure may be a stud wall having horizontally extending noggins with downwardly facing surfaces.

The mounting bracket may be mounted to the architectural structure by attaching the top wall of the mounting member to a downwardly facing surface of a noggin.

Thus, again, the mounting bracket can be mounted to the architectural structure with connector attachments protruding forwardly from a front surface of the architectural structure.

Where the mounting bracket includes both a rear wall and a top wall, the rear wall and the top wall may join at a corner section extending in the first direction between the pipe fittings. The tear wall then extends from the corner section in the second direction towards the pipe attachment and the top wall extends from the corner section in the third direction towards the connector attachments.

This provides enhanced structural rigidity to the mounting bracket.

Each connector attachment can include one or more respective flanges extending in the first and second directions so as to form a respective mounting surface facing in the third direction and suitable for mounting against a rearwardly facing back surface of an architectural structure.

In this way, the present invention provides a method for use with an architectural structure including a panel having a forwardly facing front surface and a rearwardly facing back surface and defining outlet holes through the panel. The connector attachment of the mounting bracket can be fitted through respective outlet holes so that the mounting surfaces of the flanges can be mounted against the back surface of the panel.

Respective male threads can be provided on the outside of the connector attachments. Corresponding female threaded components can be provided. These can be secured onto the respective male threads of the connector attachments so as to clamp the panel against the flanges.

The flanges can extend radially about respective connector attachments.

The flanges of the connector attachments can also be formed as part of a front wall extending between the pipe fittings in the first and second directions. The front wall may define through holes extending in the third direction by which to mount the mounting bracket. In particular, the front wall could be used to mount the mounting bracket to the rearwardly facing back surface of the architectural structure considered above.

The present invention will be more clearly understood from the following description, given by way of example only, with reference to the accompanying drawings, in which: Figure 1 illustrates schematically a water appliance in conjunction with water outlets provided in an architectural structure; Figure 2 illustrates a mounting bracket embodying the present invention; Figure 3 illustrates the mounting of a mounting bracket on a forwardly facing surface; Figure 4 illustrates an alternative mounting of a mounting bracket on a forward facing surface; Figure 5 illustrates mounting of a mounting bracket on a downwardly facing surface; Figure 6 illustrates mounting of a mounting bracket on a rearwardly facing surface; and Figure 7 illustrates a mounting bracket in conjunction with other preferred features.

In the following description, consideration is given to the situation where it is desirable to provide water outlets on an architectural structure.

Figure 1 illustrates schematically the provision of two water outlets 2 provided through an architectural structure in the form of a wall or panel 4. Water

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appliance 6 is illustrated for connection to the two water outlets 2. Preferably, the water outlets 2 are orientated and have a relative spacing such that the water appliance 6 may merely be pushed onto the water outlets 2 in a self-sealing manner.

The water appliance 6 might include a mixing valve for mixing the water supplied from the two water outlets 2 and is illustrated with a controller 8 and a mixed water outlet 9.

Generally, it is known to provide the water outlets 2 separately from any means for mounting them in position on an architectural structure.

It is now proposed to provide a mounting bracket including at least two pipe fittings and a member joining those pipe fittings as a single piece integral article.

Figure 2 illustrates a mounting bracket 10 embodying the present invention.

It should be appreciated that other mounting brackets could be provided with more than two water outlets formed from respective pipe fittings.

The illustrated mounting bracket 10 includes two pipe fittings 12. Each pipe fitting 12 includes a pipe attachment 14 which has a configuration suitable for connecting to the end of a water supply pipe. This connection can be achieved in any known manner.

A passageway 16 within each pipe fitting 12 connects the pipe attachment 14 to a connector attachment 18 at the opposite end of the pipe fitting 12. As illustrated, the internal passageway follows an L-shaped path such that the pipe attachment 14 and connector attachment 18 face in generally orthogonal directions. In other words, the open end of the pipe attachment 14 which opens into the internal passageway 16 faces in one direction whereas the open end of the connector attachment 18 which opens into the internal passageway 16 faces in a direction perpendicular to that one direction.

In this way, the pipe attachment 14 is able to receive the end of a water supply pipe running generally parallel with a front surface of an architectural covering whereas the connector attachment 18 extends outwardly from that front surface of the architectural covering in a direction generally perpendicular to the front surface of the architectural covering.

As illustrated, a mounting member 20 extends between the two pipe fittings 2 in what will be described as a first direction. The mounting member supports structurally each of the pipe fittings 12 and ensures that the pipe fittings 12 have a predetermined fixed relative spacing and a predetermined fixed relative orientation.

Thus, both of the pipe attachments 14 extend downwardly as illustrated in what will be described as a second direction. On the other hand, as illustrated, both of the connector attachments 18 face outwardly and to the right, in what will be described as a third direction.

It will be appreciated that the mounting member 20 thus ensures that the connector attachments 18 forming water outlets 2 will have a predetermined relative spacing and orientation suitable for receiving an appropriate water appliance 6 as described with reference to Figure 1.

As illustrated, the mounting member 20 includes a rear wall 22 which extends in a planar manner both in the first and second directions.

The rear wall, by its extent in the second direction, can provide some structural rigidity to mounting the pipe fittings 12 with respect to one another.

However, its planar nature can also be advantageous in providing means by which the mounting bracket 10 can be mounted to an architectural structure. For example, through holes, such as through hole 24 as illustrated, can be provided extending in the third direction through the rear wall so as to enable the mounting bracket 10 to be attached to a forwardly facing surface of the architectural structure by means of

suitable fasteners.

Figure 3 illustrates schematically an architectural structure taking the form of a brick wall 50 having a forwardly facing front surface 52.

As part of a method of installing the mounting bracket 10 on the architectural structure 50, a recess 54 is provided in the wall 50 such that there is a forwardly facing rear surface 56 at the back of the recess 54 located behind the front surface 52.

In the illustrated arrangement, recessed channels 58 are also provided for receiving water supply pipes for connection to the pipe attachments 14 of the mounting bracket 10.

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As illustrated, the rear wall 22 of the mounting member 20 can be mounted onto the forwardly facing rear surface 56 of the recess 54 of the architectural structure 50. Any appropriate fastening means can be used to mount the rear wall 22 of the mounting bracket 10. However, in the illustrated embodiment, appropriate S screw fasteners are provided through corresponding through holes in the rear wall 22.

Figure 4 illustrates a similar use of the mounting bracket 10, but with an architectural structure formed as a frame work 60 including a noggin 62 to be covered by a front panel 64 with holes 66 through which the water outlets formed by the connector attachments 18 of the mounting bracket 10 can extend.

The noggin 62 provides a forwardly facing rear surface which is located behind the forwardly facing front surface of the panel 64. Hence, the mounting bracket 10 can have the rear wall 22 of its mounting member 20 mounted to the forwardly facing rear surface provided by the noggin 62.

As discussed above with reference to Figure 3, the rear wall 22 can be mounted with any appropriate mounting means, including screw fasteners through corresponding through holes.

The embodiment illustrated in Figure 2 is additionally provided with a top wall 26 which extends in first and third directions so as to take a planar form in at least a central region. Its extent in the third direction helps improve the structural rigidity of the mounting bracket 10, particularly when taken in conjunction with the rear wall 22 extending in the second direction.

In the illustrated embodiment, the rear wall 22 and top waIl 26 both extend from a corner section 28 which extends in the first direction between the two pipe fittings 12. Thus, as illustrated, the rear wall 22 extends away from the corner section 28 in the second direction and generally in the direction in which the pipe connectors face. On the other hand, the top wall 22 extends away from the corner section 28 in the third direction and in the direction in which the open ends of the connector attachments 18 generally face.

It should be noted that it is not essential for the top and rear walls to connect at the corner section 28 and embodiments are possible where this connection is not present. However, the connection at the corner section 28 further improves structural rigidity.

It should also be noted that embodiments are possible where a top wall 26 is provided, but no rear wall 22 is provided.

As illustrated, the top wall 26 is provided with through holes 30 extending in the second direction through the top wall 26. As will be apparent, the through holes allow fasteners to be used to mount the top wall 26 of the mounting bracket 20 to an architectural structure. A method can be provided of mounting water outlets to an architectural structure by using the mounting bracket 10 and mounting the top wall 26 on an appropriate horizontally extending surface.

Figure 5 illustrates an example of an architectural structure like that of Figure 4 having a frame work 70 including a noggin 72. The noggin 72 has a downwardly facing surface and it is possible to mount the mounting bracket 10 to the frame work by mounting the top wall 26 of the mounting bracket 10 to the downwardly facing surface of the noggin 72. Of course, if it is desired to have the pipe attachments 14 extending and facing upwardly to receive water inlet pipes from above, the mounting bracket could be turned upside down and the top wall 26 mounted to an upwardly facing surface of the noggin 72.

Returning again to Figure 2, it will be seen that each pipe fitting 12 is also provided with a flange 32 which extends in the first and second directions. Each flange thus forms a respective mounting surface which faces forwardly in the third direction and can be mounted against a rearwardly facing back surface of an architectural structure.

In the illustrated embodiment, the flanges 32 are connected to the top wall 26 of the mounting member 20. This is useful in enhancing the overall strength and structural rigidity of the mounting bracket 10. It should be appreciated that the flanges 32 could extend towards each other and, indeed, connect so as to form a single front wall.

The flanges 32 can be used as part of a method for mounting the mounting bracket 10 onto a rearwardly facing back surface of a panel.

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Figure 6 illustrates an architectural structure taking the form of a panel 80 on a frame work 82. The panel includes a forwardly facing front surface (not visible in Figure 6) and a rearwardly facing back surface 84. Outlet holes 86 are provided through the panel for receiving connector attachments 18 of the mounting bracket 10.

In particular, the connector attachments 18 are fed through the outlet holes 86 and the mounting surfaces provided by the flanges 32 are brought into engagement with the rearwardly facing back surface 84 of the panel 80. Hence, the flanges 32 can be mounted against the rearwardly facing back surface 84 of the panel 80 so as to secure the mounting bracket 10 in place.

Any appropriate means can be provided for mounting the flanges 32 to the rearwardly facing back surface 84 of the panel 80. However, in the illustrated embodiment of Figure 2, a male thread is provided on the outside of each connector attachment 18. Securing components 36 including corresponding female threads can then be mounted onto the connector attachment 18 on the side of the forwardly facing front surface of the panel 80. By rotating the securing components 36 relative to their corresponding connector attachment 18, the securing components 36 can be moved longitudinally along the respective axes of their connector attachments so as to clamp the panel 80 between the flanges 32 and the securing components 36.

Figure 7 illustrates a mounting bracket 10 in conjunction with not only securing components 36, but also large volume filters 38, optoflow regulators 40 for combi boilers, decorative covers 42 and pressure test blanking caps 44.

Claims (14)

1. SCLAIMS1. A mounting bracket including: at least two pipe fittings, each pipe fitting including a respective pipe attachment and a respective pipe connector and defining a respective internal passageway connecting the respective pipe attachment to the respective connector attachment, each respective pipe attachment being configured for connection to the end of a supply pipe, each respective connector attachment being configured for attachment to a connector for a water appliance and each passageway following an L-shaped path such that respective pipe attachments and connector attachments face in substantially orthogonal directions; and a mounting member extending between the pipe fittings in a first direction and supporting the pipe fittings with a predetermined fixed relative spacing and a fixed orientation such that all pipe attachments face substantially in a second direction and all connector attachments face substantially in a third direction; wherein the mounting member includes features by which to attach the mounting bracket to an architectural structure; and the mounting bracket is a single piece integral article.
2. 2. A mounting bracket according to claim I wherein the mounting member includes a rear wall extending between the pipe fittings in the first and second directions and defining at least one throughhole extending in the third direction by which to mount the mounting bracket.
3. 3. A mounting bracket according to claim 1 wherein the mounting member includes a top wall extending between the pipe fittings in the first and third directions, and defining at least one throughhole extending in the second direction by which to mount the mounting bracket.S -Il-
4. 4. A mounting bracket according to claim I wherein the mounting member includes a rear wall, a top wall and a corner section extending between the pipe fittings in the first direction, the rear wall extending from the corner section in the second direction towards the pipe attachments and the top wall extending from the corner section in the third direction towards the connector attachments wherein one or both of the rear wall and the top wall define at least one throughhole by which to mount the mounting bracket.
5. 5. A mounting bracket according to any preceding claim wherein each connector attachment includes one or more respective flange extending in the first and second directions so as to form a respective mounting surface facing in the third direction for mounting against a rearwardly facing back surface of an architectural structure.
6. 6. A mounting bracket according to claim 5 wherein the flanges extend radially about respective connector attachments.
7. 7. A mounting bracket according to any preceding claim wherein the single piece integral article is a single moulded article.
8. 8. A method of mounting water outlets on an architectural structure using a mounting bracket according to any preceding claim wherein the connector attachments form the water outlets.
9. 9. A method according to claim 8 using a mounting bracket according to claim 3 or 4 wherein the architectural structure is a stud wall having a horizontally extending noggin and wherein the method includes attaching the top wall of the mounting member to a downwardly facing surface of the noggin.
10. 10. A method according to claim 8 using a mounting bracket according to claim 2 or 4 wherein the architectural structure includes a forwardly facing front surface and a forwardly facing rear surface located behind the front surface, the method including mounting the rear wall of the mounting member onto the rear surface of the architectural structure.
11. 11. A method according to claim 8 using a mounting member according to claim wherein the architectural structure includes a panel having a forwardly facing front surface and a rearwardly facing back surface and defining outlet holes through the panel, the method including fitting the connector attachments through respective outlet holes and mounting the mounting surfaces of the flanges against the back surface of the panel.
12. U. A method according to claim 11 further including providing respective male threads on the outside of the connector attachments and securing female threaded components onto the respective male threads of the connector attachments so as to clamp the panel against the flanges.
13. 13. A mounting bracket constructed and arranged substantially as hereinbefore described with reference to and as illustrated by the accompanying drawings.
14. 14. A method of mounting water outlets on an architectural structure substantially as hereinbefore described with reference to and as illustrated by the accompanying drawings.