GB2198636A - Illuminated mirror assembly; portable power unit - Google Patents

Abstract

A mirror assembly has a housing containing a light source, bulbs 14, set between plane and concave mirrors (10), (12) forming the external surfaces of the housing. The housing defines paths for light from the light source to specified regions on the periphery of the housing surface from which the light is emitted. A portable power unit, slidably received in the mirror handle 4 contains rechargeable batteries 54, a charging unit 56 connected to terminals 56 and a plug 60 with prongs 62 coupled to projections 64 which are resiliently received in the jaws of terminals 58 for connection to the batteries through unit 56. <IMAGE>

Description

ILLUMINATED 1i5IRROR ASSEMBLY AND POWER SYSTEM THEREFOR This invention relates to an illuminated mirror assembly, and particularly to a means by which portions thereof may be illuminated from a light source within the assembly. The invention also relates to an electric-al power supply which can readily be incorporated in the mirror assembly, but which is also useful for other items of equipment.

According to a first aspect of the invention a mirror asset comprises an housing containing a light source such as one or more bulbs set behind a mirror forming an external surface of the housing. The housing defines paths for light from the source to specified regions on the housing surface from which the light is emitted. Typically, these light paths extend to the periphery of the mirror itself, whereby such emitted light encircles or encloses the mirror. This emitted light can thus be used to illuminate an object or person whose image is reflected in the mirror.The paths may however, be defined and selected to emit light from any chosen region or regions of the housing surface to provide a variety of decorative effects, In some circumstances, the bulbs may be selected such that they direct light onto the inner surface of the mirror, and the inner, normally silvered, mirror surface be adapted to transmit selected quantities of light therethrough. In this way, spots or patterns of light can be apparently created at the surface of the mirror itself.

In one form of mirror according to the invention, light is transmitted from the source located substantially centre of the housing through air to reflectors disposed proximate the housing surface which direct light therethrough. The nature and inclination of the reflector can be selected to determine the nature and direction of light emitted at the housing surface, and typically a white painted surface can be used. Preferably, the inclination of the reflector to the plane of the mirror is in the range 350 to 55 , A more polished surface will of course generate a greater intensity oz light at the housing surface.Actually at the housing surface where the light is emitted, a diffuser ciay be included to spread the light and ensure that the appearance of the illuminated region or regions corresponds to that of the diffuser or diffusers. A diffuser is also preferably inclined to the plane of the mirror at a small angle, typically up to 100.

In-preferred embodiments of mirror assemblies of the invention, light is transmitted from the source through a transparent material, typically of plastics material such as Polystyrene, Acrylic, Polycarbonate or Acrylonitrile. Such material has an high degree of transparency, typically greater than 70*, and a refractive index in the range 1.4 to l6. The material of this transmitter can be provided with an highly polished surface through which to receive light from the source, and the ref lector may be incorporated in a second highly polished surface of the transmitter at an angle to that of the path of light through the transmitter such that light is internally reflected in the material of the transmitter before being emitted frorn the housing.It will be appreciated that in this way light from the source may he effectively confined within the transmitter all the way to the housing surface. Further, a diffuser may itself be incorporated on the face of the transmitter adjacent or forming part of the housing surface by suitably texturing the surface thereof from which the light is emitted. Thus, the transmitter may itself form part of the external surface of the housing.

The invention as described above can he embodied in assemblies having mirrors of any chosen shape, and by the adoption of suitable transmitters different lit patterns can be created on the housing surface. In some cases, optic fibres can be used where a particular path for light from the source is to he defined.

In a particular embodiment of the invention, a mirror assembly has two mirrors mounted in substantially parallel planes on opposite sides of an housing. One mirror may be planar and provide normal reflection; the other can be concave or convex to provide magnification or contraction as desired. Each mirror is mounted on an annular bod of transparent plastics material as described above, and a light source in the form of one or more bulbs is disposed substantially centrally between the two mirrors. When activated, light from the source passes into and through the transmitters which emit light from an apparent frame around the respective mirror surfaces, an the ligF.t can be directed onto the object or person whose image is being reflected.

Mirror assemblies according to the invention rnay be plane solid structures with the mirrors fixed therein. In such emboddments, the provision of an electrical rains or battery power supply for the light source can be quite straightforward. In other embodiments however, the assembly is made in two components, ons bearing the mirror or mirrors and the other can the power source. Such an arrangement is preferred where the one component is to be movably or pivotally mounted to provide for different mirror orientations. In one especially preferred embodiment of the invention, the other Component serves the dual purpose of being an handle or a stand upon which the mirror component is supported.The two components are pivotally interconnected and the mirror component carries a mirror on opposite surfaces At one extreme of the pivotal movement of the assembly, the handle or stand component may be laid on an horizontal surface supporting the mirror component with one mirror available for use, while at the other extreme position the reverse orientation may be adopted with the other mirror visible. The handle component will house the power suppl, for example a battery, and wires can pass between the components substantially on the pivotal axis, Other forms of flexible electrical connections may be used, but we have found wires to be quite satisfactory. A switch for connecting the light source to the power supply may be mounted on either component.

In some embodiments of the invention, where the assembly is in two components, the components may be detachable from one another. This can be desirable where a portable power supply is required for some other use. Particularly, the invention contemplates a portable rechargeable power supply unit which is specificall described herein as a part of a mirror assembly, but which also has other uses in other devices such as electric shavers or transistor radios.

According to another aspect of the invention there is provided a portable power unit in which a rechargeable battery or battery pack is contained within a casing, and electrically connected with a charging unit and electrical terminals for coupling to a charging source. The unit includes a plug for connecting the charging unit to a charging power source, and may also include a switch for selectively connecting the plug and charging unit. This switch is preferably embodied in the plug assembly itself by rending the pluck movable between two discrete positions, at one of which it is connected to the terminals of the charging unit and available for coupling to the charging source, and at the other of which it is disconnected.The plug assembly may additionally he adapted to connect the battery or battery pack to feed terminals for connection to the deice to be powered only when it is disconnected from the charging unit. Preferably, such movement is pivotal, and at least the terminals of the charging unit made in the orm of resilient jaws for receiving arms connected to the prongs of the plug.

The power unit of the invention is normally detachable from the device it is to operate, and such detachment will preferably disconnect the feed terminals from the device. Most preferably, the unit is at least partially removable from the device to achieve such detachment, such partial removal exposing the plugr and rendering it available for connection to a charging source. This contruction ensures that charging of the unit cannot be effected while the unit remains connected -to the device it is to operate.

Preferably, one end of the casing is formed with pins or sockets for complementary engagement with pins or sockets in the device, these pins and sockets being aligned with the direction of removal or detachment of the power unit.

Further features and advantages of the invention will become apparent from the following description of a pivotal mirror assembly embodying both aspects thereof. In the description reference will be made to the accompanying drawings wherein Figures 1 and 2 are plan and side views respectivel of the mirror assembly; Figure 3 is a sectional view taken on line A-A of Figure It Figure 4 shows a longitudinal sectional elevation of a power unit suitable for use in the mirror assembly of Figures 1 and 2; and Figure 5 shows a transverse sectional view of the unit of Figure 4.

As shown in Figures 1 and 2, an assembly according to the invention comprises a mirror component generally indicated 2, and an handle component generally indicated at 4. The body of the power component 4 is formed with bosses 6 which are received in corresponding recesses 8 in the mirror component to allow the two components to pivot relative to one another. This. pivotal connection may include plebes in resiiient ngagument with each other such that the assembly will be stable when the respective components are at different inclinations. An indexing mechanism may be incorporated to define predetermined pivotal angles, vF,e mirror component 2 comprises a circular housing on either plane face whereof is mounted a mirror 10 or 12.One of these mirrors 10 is a plane mirror. The other 12 is a concave mirror to give a magnifying effect. Dispose between the two mirrors and substantially centrally of the component 2 is a pair of bulbs 14 connected hy wires 1(3 to the handle component 4, The wires pass from the component 2 to the component 4 through openings in the bosses 6 on the component 4. A switch 18 selectively connects these wires to a power supply unit within the handle component 4 described in more detail hereinafter, via pins 20.

Figure 3 shows in more detail the manner in which light from the bulbs 14 is transmitted to create a circle of light around each mirror 10, 12 mounted in the mirror component 2. Mounted in the mirror component between the two mirrors are two annular transmitters 22 formed of a transparent acrylic plastics material, The inner polished cylindrical surfaces 24 of the transmitters receive light from the bulbs 14, and the rays pass as indicated radially outward to a second polished annular surface 26 inclined at a suitable angle, typically 600 to the overall plane of each mirror. The housing itself may include portJ.ons 28 juxtaposed against the second polished surface 26 to enhance the internal reflection of the light at the surface 26.Such reflected light is then transmitted. to the exposed surface 28 of the transmitter 22 which is formed with a textured surface such that the light is diffused thereat. The exposed surface 28 extends around the periphery of each mirror and thus, when the bulbs are activated light is emitted around each mirror.

As shown in Figure 3 the mirror 10 is a plane mirror, and the mirror 12 is a concave mirror to produce an enlarged reflected age, In manufacture, the mirror and transmitter are assembled as an integral body, and the body attached to the casing by means of bayonet fittings one of which is indicated generally at 30, Four or five such bayonet fittings will be circumferentially spaced around the casing such that both hodies can be mounted as close as possible to one another. The casing of the mirror component 2 will itself normally be formed in two moulded plastic parts 32 which are secured to each other by a suitable means prior to the mirror and transmitter bodies being attached. This enables the mirrors and transmitters to be replaced in the event for example, of breakage, or if different reflecting characteristics are desired.

The handle component 4 has an outer casing 34, normally also formed from two plastics moulded warts 36 and 38. In assembly then, the completed mirror component is mounted in one part 36 in which the switch 18 has already been secured, the wires 16 attached to the switch 18, and then the other part 38 secured thereover to close the pivotal connection between the two components. The power unit described below with reference to Figures 4 and 5 is adapted to be slideably received in the handle component, and has gripping pads 40 formed thereon to facilitate withdrawal and insertion. As best shown in Figure 5, the power unit casing 42 is formed with sockets 44 which resiliently receive the pins 20 from the switch 18 when the power unit is inserted.Contact plates 46 at the inner ends of the sockets ensure that good electrical contact is made. Wires 48 extend from the plates 46 to terminals 50, Terminals 52 are connected to a pair of rechargeable batteries 54 as shown, A charging device 56 (Figure 4) is connected to further terminals 58 which are brought into use when the batteries 54 require charging.

Pivotally mounted in the power unit is a plug 60 having prongs 62 extending therefrom. The prongs 62 are coupled to different projections 64 which extend in the same direction as the prongs 62, but from the Opposite side of the body of the plug 60. In a position shown in Figure 4, the prongs 62 of the plug 60 extend substantially perpendicularly from the power unit which may thus be directly connected to a complementary socket having recesses corresponding to the prongs 62. No additional wires are required for charging.The prongs 62 can be received directly in a mains socket. In This orientation, the projections G4 are resiliently received in the jaws of terminals 58, and thus connected through the charging unit 56 to the batteries 54. By switching on the power supply of the socket, the batteries may thus be charged. When removed from the socket, the plug 60 may be pivotted through 900 in the direction of the arrow such that the prongs 62 are received in a suitable recess 66. As the plug is pivotted, the projections 64 break their contact with the terminals 58.In this second orientation, indicated in dotted outline in Figure 4, the projections 64 respectively contact the terminals SO and 52 to make connections therebetween, and thus connect the batteries 54 to the output contact terminals 46. The power unit is now ready for reinsertion in the handle component 4 of the assembly of Figures 1 and 2. Thus, the plug 60 serves the additional function of a switch, either connecting the prongs 62 to te charging device 56, or the batteries to the output terminals 46. in eadh position, the other connection is broken.

The batteries 54 and the charging unit 56 are themselves known and a variety of suitable propriety brands thereof are readily available. The purely structural parts of the assembly as described may be made from moulded plastics material, and the electrical connecting elements of suitable conductive materials.

The switching function of the plug 60 is an important' particular feature ot the invention which may be incorporated in forms other than that described. In some jurisdictions it is a safety requirement of rechargeable power supply units that the output terminals therefrom are isolated when the unit is recharged; i.e., isolated from the charging power supply. The described embodiment achieves this automatically by the pivotal switching operation of the plug. A separate switch may be employed, for example one which connects the output terminals to the battery only when the power unit is fitted to handle component 4, or which locks the plug 60 in a non-charging position until the output terminals are so isolated.

It will be appreciated that the power unit 4 described above can be readily adapted for use in other electrical items provided with a suitable recess for receiving it and electrical connecting pongs to be received in the sockets 44. Such items might be for example. electric razors, hair dryers, or transistor radios. Because the power unit can be wholly received in the body of such an item, the unit itself is substantially fully sealed when in use. This is readily apparent from its manner of incorporation in the mirror assembly illustrated.

Claims (24)

C L A I M S:

1. A mirror assembly having a housing containing a light source set behind a mirror forming an external surface of the housing.

2. An assembly as claimed in Claim 1 wherein the housing defines paths for light from the light source to specified regions on the housing surface from which the light is emitted.

3. An assembly as claimed in Claim 2 wherein these light paths extend to the periphery of the mirror itself, whereby such emitted light encircles or encloses the mirror.

4. An assembly as claimed in any preceding Claim wherein the light source directs light onto the inner surface of the mirror, and wherein the inner mirror surface is adapted to transmit selected quantities of light therethrough.

5. An assembly as claimed in any preceding Claim wherein light is transmitted from the light source located substantially centrally of the housing through air to reflectors disposed proximate the housing surface which direct light therethrough.

6. An assembly as claimed in any preceding Claim wherein a diffuser is included at the housing surface where the light is emitted to spread the light.

7. An assembly as claimed in any preceding Claim wherein light is transmitted from the light source through means formed from transparent material.

8. An assembly as claimed in Claim 7 wherein the transmitter means receives light from the source, and wherein a reflector is incorporated in the transmitter means at an angle to that of the initial path of light through the transmitter means, such that light is internally reflected in the transmitter means before being emitted from the housing.

9. An assembly as claimed in either Claim 7 or 8 wherein a diffuser is incorporated on the face of the transmitter means adjacent or forming part of the housing surface.

10. An assembly as claimed in any preceding Claim wherein the assembly is made in two components, one component bearing the mirror and the other component carrying a power source.

11-. An assembly as claimed in Claim 10 wherein the power source component serves the dual purpose of being a handle or a stand upon which the mirror component is supported.

12. An assembly as claimed in either Claim 10 or.

11 wherein the two components are pivotably interconnected, and wherein at one extreme of the pivotal movement of the assembly, the power source component is adapted to be laid on a horizontal surface supporting the mirror component with the mirror available for use.

13. An assembly as claimed in Claim 12 wherein power supply means pass between the components substantially on the pivotal axis.

14. An assembly as claimed in any one of Claims 10 to 13 wherein the components are detachable from one another.

15. A portable power unit including a casing containing a rechargeable battery or battery pack, a charging unit electrically connected to the battery/battery pack, and electrical means adapted for coupling the charging unit to a charging source.

16. A unit as claimed in Claim 15 wherein the electrical means comprises a plug for connecting the charging unit to a charging power source, and a switch for selectively connecting the plug and charging unit.

17. A unit as claimed in Claim 16 wherein the switch is embodied in the plug itself by rending the plug movable between two discrete positions, at one of which the plug is connected to the charging unit and available for coupling to a charging source, and at the other of which the plug is disconnected.

18. A unit as claimed in Claim 17 wherein the plug is pivotally mounted, and the terminals of the charging unit are in the form of resilient jaws for receiving arms of the plug.

19. A unit as claimed in any one of Claims 15 to 18 wherein the electrical means is adapted to connect the battery or battery pack to feed terminals for connection to the device to be powered only when it is disconnected from the charging unit.

20. A unit as claimed in Claim 19 which is detachable from the device it is to operate, and wherein such detachment disconnects the feed terminals from the device.

21. A unit as claimed in Claim 20 which is at least partially removable from the device to achieve such detachment, such partial removal exposing the electrical means, and rendering it available for connection to a charging source.

22. A unit as claimed in any one of Claims 15 to 21 wherein one end of the casing is formed with pins or sockets for complementary engagement with pins or sockets in the device it is to operate, these pins and sockets being aligned with the direction of removal or detachment of the power unit.

23. A mirror assembly substantially as herein described with reference to the accompanying drawings.

24. A portable power unit substantially as herein described with reference to the accompanying drawings.