Background It is a characteristic of refrigerated cabinets such as domestic refrigerators that they provide a storage space and have a front door which is opened to enable access into the storage space. A difficulty with conventional domestic refrigerators arises from the circumstance that when the door is opened, all of the cold air contained within the storage cabinet is able to readily escape through the open front opening of the storage space. In addition in commercial situations it is an established practice to provide cool rooms with doors which facilitate access into the cool room for the purposes of extracting goods from the cool room and/or the purposes of entry. Furthermore in retail sites it is common practice to provide refrigerated cabinets which have a permanently open front opening to facilitate access by customers to the goods contained within that cabinet through the open front opening. In order to prevent the loss of cool air from the cabinet it is usual practice to generate a forced air flow through the space which tends to control the flow of cool air to limit its loss through the open front opening of the cabinet and/or to provide a curtain-like closure which provides a temporary closure to the space but which is readily capable of being displaced to enable access into the space.

Disclosure of the Invention Accordingly the invention resides in a refrigerated cabinet comprising a storage space having a front opening through which access is gained to the space, the space including a zone subdivided into at least one compartment, each compartment defined by a drawer, each drawer having been moveable within the zone from a retracted position at which it is accommodated within the zone and

an extended position at which it extends forwardly from the space, wherein when in the extended position the interior of the compartment is accessible from an upper portion of the drawer and when the drawer is in the retracted position the compartment is able to communicate with the remainder of the space, a cooling means adapted to cool at least the upper portion of the remainder of the space.

According to a preferred feature of the invention the isolation means is associated with the cooling means.

According to a preferred feature of the invention the isolation means is associated with the compartment.

According to a preferred feature of the invention a portion of the compartment is associated with a closure, said closure being moveable between an open position and a closed position wherein when the drawer is in its retracted position the closure is moved to the opened position to provide said communication and when the drawer is in its extended position the closure is in its closed position.

According to a preferred feature of the invention said remainder of the space includes a plenum formed between the walls of the space and the at least one compartment, said communication being between the plenum and the at least one compartment.

According to a preferred feature of the invention the closure comprises at least a portion of the rear wall of the drawer and the plenum is located between the rear wall of the face of the rear walls of the at least one compartment.

According to a further preferred feature of the invention the plenum is defined by a wall of the space and an opposed wall, said opposed wall being provided with a set of closures which are in one to one relationship with the compartments, said closures being moveable between a closed position and an open position wherein when the drawers are in the retracted position they cooperate with the closures moved to the open position to provide said communication when said

drawers are moved from the retracted position the closures are closed to prevent said communication.

According to a preferred feature of the invention wherein at least a portion of the upper face of the compartment is open. According to a further preferred feature of the invention the portion of the upper face communicates with the source when the drawer is in the retracted position.

According to a preferred feature of the invention the front opening of the at least one compartment sealingly cooperates with the front opening when the drawer is in the retracted position.

According to a preferred feature of the invention a plurality compartments are accommodated within the zone. According to a preferred feature of the invention the compartments are supported in a vertical array.

According to a further feature of the invention the front opening is associated with a door which controls said access. According to a further preferred feature of the invention the door accommodates one or more storage zones, the space defined between the door and front opening communicating with the remainder of the space. According to an embodiment the storage zones are closed by a closure which is capable of being opened wherein the interior of the storage zones communicate with the remainder of the space. According to a preferred feature of the embodiment the communication between the remainder of the space and the space defined between the door and front opening and/or storage zones is through passageways provided in the door.

According to a preferred feature of the invention the cooling means comprises a duct element and the isolation means comprises a valve associated with said duct element, and the drawer comprises a member adapted to open said valve when the drawer is in the retraced position and the valve comprises means to close said valve when the drawer is not in the retracted position.

According to a further aspect, the invention resides in a refrigeration system comprising a plurality of refrigerated cabinets of a type as previously referred to wherein the cooling means is provided to each refrigerated cabinet from a common cooling source.

The invention will be more fully understood in the light of the following description of several specific embodiments.

Brief Description of the Drawings The invention is described with reference to the accompanying drawings of which; Figure 1 is a schematic sectional side elevation of a refrigerated cabinet according to the first embodiment with the door in a closed position ; and Figure 2 is a schematic sectional side elevation of a refrigerated cabinet according to the first embodiment with the door in the open position and a drawer in an extended position.

Figure 3 is a schematic isometric view of a refrigerated compartment according to the fourth embodiment.

Figure 4A is a diagrammatic representation of a leaved valve in a connecting duct according to the fourth embodiment, the valve being in the closed position.

Figure 4B is a diagrammatic representation of a leaved valve in a connecting duct according to the fourth embodiment, the valve being in the open position.

Figure 5 is a schematic sectional side elevation of a refrigerated compartment according to the fifth embodiment.

Figure 6 is a schematic isometric view of a refrigeration system using three refrigerated compartments according to the fourth embodiment connected to a common cooling source.

Detailed Description of Specific Embodiments The first embodiment shown in the accompanying drawings relates to a domestic refrigerator which comprises a cabinet 11 which defines a storage space within its interior. The cabinet 11 is open at its front opening and is provided with a door 13 which is associated with the front opening to be moveable from a closed position as shown at Figure 1 to prevent access to the front opening of the cabinet and an open position as shown at Figure 2 which enables access to the front opening of the cabinet. The storage space of the cabinet includes a zone which is defined by a set of compartments 15. Each compartment 15 is closed at its lower and upper face. In addition the rear face of each compartment is closed by a closure element 17 which is pivotally supported from the lower wall of the respective compartment such that it is moveable between a closed position at which the upper edge of the closure 17 substantially sealingly cooperates with the rearmost end of the upper wall of the compartment and an open position at which the compartment is declined rearwardly to provide communication into the compartment through the gap defined between the upper edge of the closure and the rear edge of the uppermost wall of the respective compartment.

The cabinet is associated with a conventional refrigeration circuit comprising compressor 19 supported in the lower portion of the cabinet, a condenser 21 supported from the rear exterior face of the cabinet and a vaporiser 22 which is accommodated at the upper end of the compartment of the space. If desired the refrigerator can be provided with a fan which causes air to pass over the vaporiser and thence through the space.

The space within the cabinet comprises a plenum 23 defined between the rear wall 25 of the space at an intermediate wall 27 which is spaced inwardly from the rear wall 25. The intermediate wall is provided with a plurality of openings 29 which provide communication between plenum 23 and an intermediate portion 24 of the space defined between the intermediate wall 27 and the rear walls of the compartments.

Each compartment 15 slidably supports a drawer 31 which is moveable from a retracted position at which it is fully accommodated within the compartment 15 ( as shown in Figure 1) and an extended position at which it extends forwardly from the compartment (as shown in the case of the uppermost compartment of Figure 2). Each drawer comprises a lower wall, a front wall 35 and a rear wall 33 has an open top. The front face 35 of each drawer sealingly cooperates with the front opening of the cabinet such that when the drawer is in its retracted position the compartment is sealingly closed at the front face. The rear wall of 33 of each drawer cooperates with the closure 17 of each compartment to move the closure to its open position when the drawer is in its retracted position. Each closure 17 is biased such that on the drawer being moved towards its extended position out of engagement with the closure the closure will move to its closed position.

As a result of the embodiment the space within the refrigerated cabinet is divided into a plurality of spaces which are each defined by the drawers 31. Access to the drawers 31 is gained by opening the door 13 of the cabinet and moving the respective drawer 31 to its extended position. In so doing the communication between the plenum 23 and the respective compartment 15 is closed as a result of the closing of the closure 17. Access to the contents of drawer 31 are gained through the open top of the drawer. As a result communication between the plenum 23 and each compartment is only effected when the drawer contained within the compartment is in its retracted position. Therefore when the door 13 of the cabinet is open substantially little cold air is lost from the storage space within the cabinet even when access is gained to the interior of a drawer. With the door 13 open and a drawer 31 in its extended position the plenum 23 is closed and access to the drawer is through the open top only and therefore little cool air is lost through the compartment. The most significant loss of cool air is a result of disturbance of the contents of the drawer.

In addition the door 13 supports a set of storage zones 41 which are each associated with a separate closure which enables access into each storage zone.

Each storage zone is connected to a duct 43 in the door which connects with a corresponding positioned passageway 45 in the upper wall of the cabinet when the door is closed and which communicates with the space around the vaporiser

to enable cool air to flow into each storage zone to cool the contents thereof. If desired the passageway 45 can also communicate with the space defined between the door and the front opening of the cabinet when the door is in its closed position.

According to a second embodiment of the invention (not shown) the closure of each compartment may be accommodated by the rear wall of the drawer which cooperates with the walls of the compartment to sealingly close the compartment on a drawer being moved from the retracted position to the extended position but when the drawer is in the closed position opens to provide communication between the source of cool air and the interior of the drawer.

According to a third embodiment of the invention the drawer substantially cooperates with the walls of the compartment to substantially prevent any substantial movement of cool air from the plenum past the drawer and through the front opening. The engagement need not be a sealing engagement. In addition the upper face cooperates with the upper wall of the compartment whereby when on the drawer moving to the retracted position the upper open face of the drawer opens into the plenum space. According to this embodiment no closure is provided between the respective compartment and the plenum space to isolate the compartment from the plenum space when the drawer is moved towards its extended position.

Each of the embodiments of the invention described above can be applied to a domestic refrigerated cabinet, domestic freezers, commercial cool rooms, commercial refrigerated cabinets and the like.

However, by the application of the invention a number of the constraints to the design of refrigerator systems are removed and a designer is able to provide quite innovative designs which embrace the invention. In a fourth embodiment, as shown in Figure 3, a refrigeration system is provided which embraces the freedoms provided by the invention. The embodiment comprises at least one compartment 111 providing a storage space which in use is installed within a suitable enclosure 112. Unlike the embodiments previously described, the

enclosure for the compartment of the fourth embodiment is not a specialised refrigerator cabinet but rather may be any convenient enclosure such as a conventional kitchen cabinet.

The compartment 111 comprises an insulated wall and has a front opening through which access is gained to the space and encloses a drawer 114 adapted to slide between an extended position for access to the drawer and a retracted position wherein the drawer 114 is substantially enclosed within the compartment 111. The front, external wall 115 of the drawer is insulated and sealing means is provided between the drawer and the compartment (not shown) so that when the drawer is in the retracted position the contents of the drawer are fully sealed and insulated within the compartment. A suitable cooling means is provided so that when the drawer 114 is in its retracted position the cooling means is adapted to cool the contents of the drawer and when the drawer 114 is not in the retracted position the drawer is isolated from the cooling means.

This arrangement allows considerable freedom of choice over the selection of the cooling means. In the fourth embodiment, chilled air produced by a remote source is distributed through a suitable ducting system 121. As shown in Figures 3 and 4A, in the vicinity of a compartment, the ducting system 121 is provided with valved porting means 122 in the form of a short connecting duct entering the compartment and housing a valve 123 which is adapted to be engaged by corresponding porting means in the drawer 114 in the form of a suitable nozle 124 at the rear of the drawer 114. When the drawer 114 is in the retracted position, the nozzle 124 opens the valve 123 and thereby enables chilled air to enter the drawer space.

In the embodiment, as shown in Figure 4A and 4B, the valve in the connecting duct 122 comprises a plurality of flexible leaves 125 normally extending across the throat of the connecting duct 122 to thereby seal the duct 122. The leaves 125 are readily displaced by the noble 124 to permit communication of the chilled air into the drawer space. As the chilled air is circulated at low pressure, absolute sealing is not essential and a fairly simple valving arrangements will be found satisfactory.

In certain adaptations, the nozzle 124 is also valved although this is not considered important as external air must enter space behind the drawer when the drawer is in the extended position. In the embodiment as shown in Figure 3, a pair of ports are provided, one inlet and one outlet port, thereby promoting good circulation of the chilled air. Again, this may not be considered necessary in certain configurations. The porting arrangement just described should be considered as an example only of the type of disengagable connection that might be used and it should be recognized that one of many other known arrangements could also be adapted to the embodiment.

As mentioned earlier, the cooling means may take many forms. In a fifth embodiment, as shown in Figure 5, chilled coolant is distributed rather than chilled air. A localised evaporator 211 is provided in a plenum 212 associated with each compartment and isolation means is provided between the drawer and the cooling means which is generally of the form described in relation to the first embodiment. It is thought that this arrangement may provide a system whereby localised thermostatic control may be provided to each drawer in a multi drawer system.

The arrangements such as those described in relation to the fourth and fifth embodiments lend themselves to providing a plurality of separated compartments in a single refrigeration system, as shown in Figure 6. The compartments might be produced in a number of standardised sizes and an interior designer might select several and locate them at different positions around a kitchen area.

These might be linked to a single, common cooling source which could be located remote from the compartments thereby removing the main noise source to another location. Some compartments could be provided immediately below bench-top level and provided with a transparent viewing panel to enable a user to identify the contents without opening the drawer. In such an arrangement, the transparent panel might be sealingly hinged so that it could be opened to thereby provide an additional means of access as well as by extending the drawer.

Within such a system, where individual thermostatic control is provided, certain compartments could be configured as freezer units while others are less cooled

for general chilled goods. Indeed, other compartments might only be slightly chilled, for example for storing wine.

All of the embodiments show a considerable improvement in total efficiency over conventional refrigerators, as a result of the fact that there is a very substantial reduction in the volume of cooled air which is lost when a compartment is opened. In addition, they are more accessible because the goods are arranged in the drawers rather than being stacked on shelves where the rearmost items are relatively inaccessible. This is an advantage to the general user but even more particularly to those suffering from a disability.

Throughout the specification, 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.

It should be appreciated that the scope of the present invention need not be limited to the particular scope of the embodiments described above.