GB2522185A - A camera mounting assembly, and a method of mounting a camera to an object - Google Patents

Abstract

A camera mounting assembly for mounting a domed security camera 16 to a ceiling or wall panel 50 comprises a tubular part 12 with an elongate flange which can be passed through an aperture in the panel and then orientated so that it can be fastened to the panel. A second part of the camera can then be attached to the first part.

Description

A CAMERA MOUNTING ASSEMBLY. AND A METHOD OF MOUNTING A CAMERA

TO AN OBJECT

The invention relates to a camera mounting assembly, and a method of mounting a camera to an object.

An aim of the present invention is to provide a simpler, improved, or at least an alternative, camera mounting asscmbly.

I U Another separate aim ol the present invention is to provide a simpler, improved, or at least an alternative, method of mounting a camera to an object.

According to a first aspect of the invention thcre is provided a method of mounting a camera to an object. in accordance with Claim 1.

According to a second aspect of the invention there is provided a camera mounting assembly in accordance with Claim 2.

According to a third aspect of the invention there is provided a method of mounting a camera to an object in accordance with Claim 3.

According to a fourth aspect of the invention there is provided a camera mounting assembly in accordance with Claim 4.

According to a filth aspect of (lie invention there is provided a method of mounting a camera to an object in accordance with Claim 5.

According to a sixth aspect of the invention there is provided a camera mounting assembly in accordance with Claim 6.

According to a seventh aspect of the invention there is provided a method of mounting a camcra to an object in accordance with Claim 7.

According to an eighth aspect of (lie invention there is provided a camera mounting assembly in accordance with Claim 8.

Other optional and preferred features of the invention arc set out in the dependent claims, and the description, below. It will be appreciated that. the features of any one of the independent claims can he combined in any complimentary manner, with one or more features of another independent claim, the dependent claims, and/or with one or more features of the description, where such a combination of features would provide a working embodiment of the invention.

For independent claims of different type, for example a "product" claim and a "method" claim, analogous features can be combined.

A camera mounting assembly, and a method of mounting a camcra to an object, in particular to a panel, each in accordance with the invention will now be described, by way of example only, with reference to the accompanying drawings. in which, Figure 1 is a perspective view, in exploded form, showing parts of a camera mounting assembly, and a security camera, Figure 2 is a further perspective view showing a subset of the parts of the camera mounting assembly shown in Figure 1, and a security camera, Figure 3 is a perspective view showing a part of the camera mounting assembly of Figures 1 and 2, and stcps in the corresponding method of mounting a camera to a panel, Figure 4 is a further perspective view, in exploded form, showing parts of the camera mounting assembly of Figures 1 and 2, and a security camera, and steps in the corresponding method of mounting a camera to a panel, Figure is a cross section view showing the camera mounting assembly, and a security camera, mounted on the panel, and steps in the corresponding method of mounting a camera to a panel, Figure 6 is a further cross section view showing the camera mounting assembly and a security camera, mounted on the panel, and the accompanying method of mounting a camera toapanel,and Figure 7 is a further cross section view showing the camera mounting assembly and a security camera, the panel being omitted for clarity.

Referring to Figures 1 and 2, a camera mounting assemlly 10 comprises a Iirst (panel mounting) part 12 and a second (camera retaining) part 14.

Still referring to Figures 1 and 2, the camera mounting assembly 10 is used with a conventional security dome camera 16 made by BosehTM. The security dome camera 16 typically has fixed and pan-tilt-zoom (PTZ) functions, as well as High Definition (HD).

Referring to Figure 1, the camera mounting assembly 10 also comprises a cover 18. The cover 18 takes the form of a thin, metal, annular plate or bezel. 1 0

Referring to Figure 1, the camera 16 comprises an electric cable (not shown for conciseness), which extends outwardly from a back surface/upper surface 24 of a housing 26 of the camera 16, and the camera mounting assemhly 10 also comprises a sealing ring 20. and a waterproof cover 22, for clamping the sealing ring 20 against the back surface/upper surface 24 of the housing 26 of the camera 16, hy means of screws 27, and washers 28. A cable grommet 29 is also provided.

Referring to Figures 2 to 4, the first part 12 of the camera mounting assembly 10 comprises a tubular part 30 and a flange 32.

The tubular part 30 comprises a first tubular part 30a and a second tubular part 30h. The inner surface 33 of the tubular part 30 is threaded, in one continuous thread over the extent of the first tubular part 30a and the second tubular part 30b.

Still referring to Figure 2, the flange 32 comprises a first flange part 32a and a second flange part 32b. Referring to Figures 2 and 3. a first side 34 of the first flange part 32a is substantially in line with a first tangent Ti of the tubular pail 30 and a first side 35 of the second flange part 32b. Referring again to Figures 2 and 3. a second side 36 of the first flange part 32a is substantially in line with a second tangcnt T2 of the tubular part 30 and a sccond side 37 of the second flange part 32b. Furthermore, referring to Figures 2 and 3. flange parts 32a, 32h comprise, respectively, outer edges 38, 39 which are roughly conccntric with the tubular part 30.

The flange 32 extends transversely to the longitudinal axis of the tubular part 30.

The flange 32 is plate 111cc.

It should be noted that the flange 32 (i.e. the first flange part 32a and the second flange part 32h) is offset from the midpoint of the tubular part 30. Consequently, the distance from the flange 32 to the free end of the first tubular part 30a (i.e. in the direction of the longitudinal axis of the tubular part 30) is less than the corresponding distance for the second tubular part 30h. This arrangement allows the first part 12 to he turned over and used for either a thinner or thicker panel as will be described hereundcr.

The first part 12 is elongate in the sense that the distance between the part of the edge 38 of the first flange part 32a furthermost from the edge 39 of the second flange part 32b and the edge 39 of the second flange part 32b (herein referred to as the length) exceeds the distance between tangents TI and T2 of the tubular part 30 (herein referred to as the width).

S

The second part 14 comprises an inwardly extending lip 40 designed to support a shoulder 41 of the housing 26 of the security camera 16.

The lip 40 defines a circular aperture 42 suitable for receiving the domed part 43 of the security dome camera 16.

The camera mounting assembly 10 comprises fastening means 44 to connect the second part 14 to the housing 26 of the security camera 16.

Referring to Figure 3, the camera mounting assembly 10 is employed to mount the security camera 16 on an object 50. The primary object 50 in the mind of the Applicant is an interior room ceiling or wall panel of a yacht, although other objects are envisaged as mentioned below, and the reference numeral 50 is used intcrchangeahly in relation to the term "object" or the term "panel".

Referring to Figure 3, the panel 50 comprises a circular aperture 52, which can conveniently be manufactured using a hole saw or the like.

Prior to installation of the camera mounting assembly 10 on the panel 50, the first part 12 of the camera mounting assembly 10 is arranged adjacent an inside surface 54 of the panel 50.

Referring to Figure 3, the first part 12 of the camera mounting assembly 10 is arranged so that. the length (as defined above) of the first part 12 is transverse to the plane of the aperture 52. The width of the first part 12 (i.e. the distance between tangents TI and T2 of the tubular part 30) is slightly less than the diameter of the aperture 52, and the depth of the first part 12 (i.e. the height of the tubular part 30) is miiiimal, so that (lie lirst part 12 ol the camera mounting assembly 10 can pass through the aperture 52 without any frictional resistance.

The first part 12 of the camera mounting assembly 10 is then passed through the aperture 52 in the panel 50. The first part 12 remains in the same or simflar orientation as it is passed through the aperture 52.

Subsequently, the first part 12 of the camera mounting assembly 10 is rearranged, so that the first flange part 32a and the second flange part 32h are suhstantiafly parallel to a hack surface 56 of the panel 50. The Iirst tubular part 30a. or the second tubular part 30h. can he arranged within the aperture 52 of the panel 50, depending on the thickness of the panel. Yacht panelling is most often composite sandwich construction which usually ranges in thickness from 10 mm to 40 mm, and the height of the first tubular part 30a and the second tubular part 30b covers this range. and beyond if necessary. The first tubular part 30a should be arranged within the aperture 52 of the panel 50 if the panel is the panJ 50 is thinner, whcreas the second tubular part 3Db should be arranged within the aperture 52 of the panel 50 if the panel is thicker.

The first part 12 of the camera mounting assembly 10 is then lowered so that the fir st flange part 32a and the second flange part 32b sit on the back surface 56 of the panel 50. Moreover, (lie First flange part 32a and (lie second flange part 32h arc bonded onto the hack surface 56 of the panel 50, either with double sided adhesive pads 57 made by 3MTM, which can be arranged on both sides of the first flange part 32a and the second flange part 32b for conveniencc. or using standard glue (not shown for conciseness). Where using glue, the surfaces of the first flange part 32a and the second flange part 32b that come into cooperation with the panel 50 can he drilled or otherwise prepared to improve the keying of the glue to the flange parts 32a. 32b. The holes can be added to the first part 12 of the camera mounting assembly 10 duriiig the process of manufacturing the first part 12. If the first part 12 is CNC maclimed holes can be drilled. Alternatively, holes can be moulcieci in with an injected plastic or cast metal part. Yet a further alternative design of the first part 12 might not he provided with holes and holes could be optionally drilled in the first part 12 by the installer prior to installation/honding.

Referring to Figure 4, the security camera 16 is arranged above the second part 14 of the camera mounting assembly 10. The second part 14 of the camera mounting assembly 10 is then brought into engagement with the first part 12 of the camera mounting assembly 10.

Specifically, referring to Figure 5, the screw thread 33 on the (inner surface of the) first part 12 of the camera mounting assembly 10 engages with the screw thread 45 on the (outer surface of the) second part 14 of the camera mounting assembly 10. Referring to Figures 5 and 6. thc first part 12 and the second part 14 of the camera mounting assemffly 10 provide adequate vertical adjustment to accommodate the cover 18, as described below, and leave the visible inner surface of the cover 18 substantially flush with the inside surface 54 of the panel when the cover 18 is added. The installer can simply screw the second part 14 into the first part 12 to a desired depth, so that allowing for the thickness of the cover 18 the inner surface of the cover 18 is in liuie with the inner surface 54 of the particular panel 50 inner to which the camera mounting assembly 10 is mounted.

Referring to Figures 2, 5 and 7. grub screws 60 pass through grub screw sleeve housings 59 on an outwardly extending lip 41 of the second part 14 and are directed towards the free cdge of the first tubular part 30a, or the second tubular part 30b, depending on how the first part 12 is onented. The grub screws 60 can he Lightened by the installer from iii Iront of the panel 50 so that they apply sufficient force onto the free edge of the first tubular part 30a. or the second tubular part 30b. so as to prevent rotation of the fir st part 12 relative to the second part 14. Therefore, the grub screws can prevent the camera 16 from moving, for example in rough weather and coming loose from the camera mounting assembly 10. The free edges of the first tubular part 30a or the second tubular part 30b can be provided with a shallow V shaped groove (running from the inside to the outside of the tuhifiar part 30a, 30h) to help engagement of the grub screw 60 with the free edges of the first tubular part 30a or the second tubular part 30h. The camera mounting assembly 10 of Figure 6 differs slightly from the camera mounting assembly 10 of Figures 2, 5 and 7, in that such grub screws 60 and their function are omitted for simplicity.

Referring to Figures 1 and 4, the cover 18 defines a circular aperture 58 which receives the domed part 43 of the security dome camera 16. Then, referring to Figure 3. the cover 18 is attached to the lip 40 of the second part 14 of the camera mounting assembly 10 using magnetic attachment means, or hi another embodiment of the invention (not shown for conciseness) by screws or fasteners.

The cover 18 can be made of the same material as the inside surface of the panel 50 or the panelling, or a similar material, or decorated in a similar finish to the panel 50 or the panelling, with (lie aim of blending the camera mounting assembly 10 in with the decor of the yacht.

An advantage of the camera mounting assembly 10, and corresponding mounting method, in accordance with the invention is that it is simple way to mount a standard security dome camera 16 in the panelling 50 of a yacht where it needs to he mountable and accessible from the front surface 54.

Another advantage of the camera mounting assembly 10, and corresponding mounting method, in accordance with the invention is that the cover 18 allows the camera mounting assembly 10 to mount flush or nearly flush with the inside surface 54 of the panel 50.

The camcra mounting assembly 10, and colTcsponding mounting mcthod, in accordance with the invention provides a tidy mounting. It will he appreciated that screw engagement 33, 45 (between first part 12 and second part 14) is hidden.

The camera mounting assembly 10, and corresponding mounting method, in accordance with the invention provides a compact mounting.

The camera mounting assembly 10, and corresponding mounting method, in accordance with the invention provides a sufficient strength for mounting heavy cameras.

The camera mounting assembly 10, and corresponding mounting method, in accordance with the invention can be applied to a yacht, a large or super yacht, of the sailing or motor variety, another vessel, building, structure or any object. Specifically, the camera mounting assembly 10, and corrcsponding mounting method, in accordance with the invention is intended to he applied to a ceiling or wall panel of (an interior room of) a yacht.

The camera mounting assembly 10 can be removed from the panel 50 by reversing the aforementioned method steps. It)

The mounting assembly. and method of mounting. can be employed to mount other objects.

e.g. fife/smoke detectors, sprinklers, alarms. downlighters, and the like, to, and preferably flush with, panels. The mounting assembly, and method of mounting, can be employed to mount objects to panels in environments other than vessels, for example in buildings.

Therefore, the claimed mounting assembly. and method of mounting, are not limited to, respeetivdy. a camera mounting assembly for mounting a domed security camera to a ceihng or wall panel of a yacht, and a method of mounting a security camera to a ceiling or wall panel of a yacht. For examp'e, the mounting assemily may he a fire detector mounting I U assembly!hr mounting a fire detector mounting assembly to a panel, and the method may comprise corresponding steps.

II

Claims (17)

1. CLAIMS1. A method of mounting a security camera to a ceiling or wall panel of a yacht, the method comprising the steps of, providing a camera mounting assembly which comprises a first part and a second part, the first part comprising a tubular part and a flange that extends outwardly from the tubular part, transversely to the longitudinal axis of the tubular part. the first part being elongate, orienting the first part so that its length can he transverse to the plane of an aperture in a panel, passing the first part through the aperture, once the first part length has passed through the aperture. turning the first part so that the length can he parallel I U to the p'ane ol the aperture, so that the first part length exceeds (lie aperture site, lastening the flange of the first part to the panel, and fastening the second part to the first part.
2. 2. A camera mounting assembly for mounting a domed security camera to a ceiling or wall panel of a yacht, the camera mounting assembly comprising a first part and a second part, the first part comprising a tubular part and a flange that extends outwardly from the tubular pail, transversely to the longitudinal axis of the tubular part. the first part being elongate, the first part being orientable so that its length can be transverse lo a plane of an aperture in a panel, the first part being passable through such an aperture with the first part in the same or similar orientation, the first part being designed so that once the first part length has passed through the aperture, the first part can be turned so that the length can be parallel to the plane of such an aperture, so that length of the first part exceeds thc site of the aperture, the flange of the first pail being fastenable to such a panel, and the second part being fastenable to the first part.
3. 3. A method of mounting a security camera to a ceiling or wall panel of a yacht, the method comprising the steps of. providing a camera mounting assembly which comprises a first part and a second part. the first part comprising a tubular part and a flange that extends outwardly from the tubular part, transversely to the longitudinal axis of the tubular part.arranging the first part behind an aperture in a panel with the tubular part of the first part aligned with the aperture, arranging the tubular part of the first part in the aperture in the panel, orienting the first part so that the flange can he adjacent to the panel, fastening the flange of the fir st part to the panel, and fastening the second part to the first part, wherein the flange is asymmetrically arranged along the axis of the tubular part. I 0
4. 4. A camera mounting assembly for mounting a domed security camera to a ceiling or wall panel of a yacht, the camera mounting assembly comprising a first part and a second part, the first part comprising a tubular part and a flange that extends outwardly from the tubular part, transversely to the longitudinal axis of the tubular part, the first part. being arrangahk behind such a panel, with an aperture in such a panel, with the tubular part of the first part alignable with such an aperture, the tubular part of the first part being arrangable in such an aperture in a panel, the first part being orient able so that the flange can be arranged adjacent to such a paneL the flange of the first part being fastenable to such a panel, and the second part being fastenable to the first part. wherein the flange is asymmetrically arranged along the axis of the tubular part.
5. 5. A method of mounting a security camera to a ceiling or wall panel of a yacht, the method comprising the steps of, providing a camera mounting assembly which comprises a first part and a second part, the first part comprising a tubular part and a flange that extends outwardly from the tubular part, transversely to the longitudinal axis of the tubular part, the tubular part comprising a threaded inner annular surface, the second part having a complimentary threaded outer annular surface, arranging the first part behind an aperture in a panel with the tubular part of the first part aligned with the aperture, orienting the first part so that. the flange is adjacent to the panel, fastening the flange of the first part to the panel, and fastening the threaded outer annular surface of the second part to the threaded inner annifiar surface of the tubular part of the first part.
6. 6. A camera mounting asscmbly for mounting a domed security camera to a ceiling or wall panel of a yacht, the camera mounting assembly comprising a first part and a second ID part, (he first part comprising a tubular part and a flange that extends outwardly from the tubular part, transversely to the longitudinal axis of the tubular part, the tubular part comprising a threaded inner annular surface, the second part having a complimentary threaded outer annular surface, the first part being arrangable behind a panel, with an aperture in a panel, with the tubular part of the first part alignable with the aperture. the first part being orientable so that the flange can he arranged adjacent to a panel, the flange of the first part being fastenable to such a panel, the threaded outer annular surface of the second part being fastenable to the threaded inner annular surface of the tubular part of the first part.
7. 7. A method of mounting a security camera to a ceiling or wall panel of a yacht, the method comprising the steps oL providing a camera mounting assembly which comprises a first part and a second part, arranging the first part behind an aperture in a panel, fastcning the first part to the panel, and fastening the second part to the first part, the method also comprising providing a camera mounting assembly which comprises a cover part, fastening the cover part to the second part, so that the cover part lies within the panel aperture, and flush with an inner surface of such a panel.
8. 8. A camera mounting assembly for mounting a domed security camera to a ceiling or wall panel of a yacht, the camera mounting assembly comprising a first part and a second part, the first part being arrangable behind a panel, with an aperture in such a panel, the first part being fastenable to such a panel, wherein the second part is fastenable to the first part, the camera mounting assembly also comprising a cover part which is fastenable to the second part, the cover part being designed to lie within an aperture of such a panel, and flush with an inner surface of such a panel.
9. 9. A camera mounting assembly according to any one or more of Claims 2, 4. 6, and 8.wherein the camera mounting assembly comprises means to connect the second part to a security camera.
10. 10. A camera mounting assembly according to any one or more of Claims 2, 4. 6. 8 and 9, wherein the second part comprises a lip to support a housing of a security dome camera.
11. 11. A camera mounting assembly according to Claim 10. wherein the lip defines a circular aperture suitable for receiving the domed part of a security dome camera.
12. 12. A camera mounting assembly according to any one or more of Claims 2, 4. 6, 7. 10 and 11, wherein the camera mounting assembly comprises a cover which can connect to the second part.
13. 13. A camera mounting assembly according to Claim 8 or 12, wherein the cover defines a circular aperture suitable for receiving the domed part of a security dome camera.
14. 14. A camera mounting assembly according to Claim 13, wherein the cover comprises an annular disc.
15. 15. A camera mounting assembly substantially as described herein and/or with reference to Figures 1 and/or 2 of the drawings, with or without the security camera.
16. 16. A camera mounting and panel assembly substantially as described herein and/or with reference to Figures. 3 and/or 4 and/or 5 and/or 6 of the drawings, with or without the security I U camera.
17. 17. A method of mounting a security camera to an object substantially as described herein and/or with reference to Figures 1 and/or 2 and/or 3 and/or 4 and/or 5 and/or 6 of the drawings.