AU2011253776B2 - Telephony services for programmable multimedia controller - Google Patents

Abstract

A programmable multimedia controller which may be programmed to provide advanced, diverse telephony services including video phone calls, audio and video conferencing, voicemail, text messaging and answering machine functions among s others. In accordance with another aspect of the present invention, a touchscreen which is interfaced with the multimedia controller may be used as a virtual telephone, intercom or other communication or control device. By displaying a simulated tele phone keypad, intercom controls or other appropriate controls on the touchscreen, a user may access both basic and advanced features and functions in a way that is intui mn tive and familiar. In an alternative embodiment, a simple remote control may be used with a television to enable user access to the same advanced telephony services as with the touchscreen. The programmable multimedia controller may be directly con nected with conventional handsets to provided plain old telephone service (POTS) as well private branch exchange (PBX) service.

Description

P/00/01i1 Regulation 3.2 AUSTRALIA Patents Act 1990 COMPLETE SPECIFICATION STANDARD PATENT Invention Title: Refrigerator-freezer The following statement is a full description of this invention, including the best method of performing it known to us: IP Australia 2 4 AUG 2012 RECEIVED iPL 1UUUJqJ/b. DESCRIPTION [Title of Invention] REFRIGERATOR-FREEZER [Technical Field] [0001] The present invention relates to a refrigerator-freezer in which a refrigerator is disposed above a freezer and a circulation fan for inside cooling and a refrigerator cooling fan which sends cold air to the refrigerator are provided. [Background Art] [0002] In large-capacity refrigerator-freezers, particularly, a large-capacity refrigerator freezer of such a type that a high temperature compartment (i.e., a chilling temperature zone compartment, such as a refrigerator or a vegetable compartment) is disposed above a low temperature compartment (i.e., a refrigeration temperature zone compartment, such as a freezer or an ice-making compartment), a cooler for cooling inside air is placed at the back of the low temperature compartment, and cold air cooled by the cooler is circulated by a circulation fan to cool the inside, it is increasingly difficult to cool the top shelf of the high temperature compartment, which has a large capacity and is positioned high, using a single circulation fan. For this reason, a refrigerator has been proposed which further includes a fan for cooling a high temperature compartment to effectively cool the high temperature compartment (for example, refer to Patent Literature 1). [Prior Art References] [Patent Literature] [0003] [Patent Literature 1] Japanese Patent No. 4667307 (p. 5, Figs. 3 and 4) Reference to any prior art in the specification is not, and should not be taken as, an acknowledgment or any form of suggestion that this prior art forms part of the common general knowledge in Australia or any other jurisdiction or that this prior art could reasonably be expected to be ascertained, understood and regarded as relevant by a person skilled in the art. 41 .UUU'L.3 Z [Summary of Invention] [Technical Problem] [0004] The refrigerator disclosed in Patent Literature 1 has an air path structure in which the flow of cold air blown from an insidecooling circulation fan positioned in the vicinity of an outlet of a cooler placed on the rear surface of a low temperature compartment is split into cold air flowing into the low temperature compartment and cold air flowing into the high temperature compartment, the cold air flowing to the high temperature compartment is blown into the high temperature compartment by the high temperature compartmentcooling fan placed on the rear surface of the high temperature compartment. [0005] In this structure, however, when the high temperature compartment-cooling fan is driven to rotate upon cooling of the high temperature compartment, cold air supplied to the low temperature compartment is partly supplied to the high temperature compartment in order to cool the high temperature compartment, as illustrated in Fig. 5, so that the quantity of cold air blown into the low temperature compartment is reduced. Disadvantageously, the efficiency of cooling in the low temperature compartment is lowered. [0006] The present invention has been made to overcome the above-described disadvantage and an object thereof is to provide a refrigerator-freezer in which the whole of cold air in a cooler compartment is sent to a low temperature compartment and the cold air in the low temperature compartment is sent to a high temperature compartment upon cooling of the high temperature compartment, whereby even in a case in which the high temperature compartment is cooled, there is no possibility that the cooling efficiency in the low temperature compartment would be lowered. Alternatively, or in addition, it would be desirable to provide the public with a useful choice. 0 [Solution to Problem] [0007] In some aspects there is provided a refrigerator-freezer including a low temperature compartment, a high temperature compartment positioned above the low temperature compartment, a thermal insulating partition wall that separates the low temperature compartment and the high temperature compartment, a cooler compartment positioned at the back of the low temperature compartment, a first fan that sends the whole of cold air in the cooler compartment to the low temperature compartment, a high-temperature-compartment duct positioned at the back of the high temperature compartment, a low-temperature-compartment partition wall positioned in the low temperature compartment, the low-temperature-compartment partition wall partitioning the low temperature compartment into right and left sections; and a cold air intake duct positioned in the low-temperature-compartment partition wall, the cold air intake duct having an air inlet that opens into the low temperature compartment and communicating with the high-temperature-compartment duct, and a second fan provided at an air outlet of the cold air intake duct to the high temperature-compartment duct.. In other aspects there is provided a refrigerator-freezer comprising: a thermally insulation casing including a low temperature compartment, a high temperature compartment, and a thermal insulating partition wall that separates the low temperature compartment and the high temperature compartment, the low temperature compartment being positioned under the thermal insulating partition wall and the high temperature compartment being positioned on the thermal insulating partition wall; a low-temperature-compartment back thermal insulating wall positioned at the back of the low temperature compartment; a cooler compartment positioned between the thermally insulation casing and the low-temperature-compartment back thermal insulating wall; a cooler housed in the cooler compartment; an outlet duct and a return duct provided in the low-temperature-compartment back thermal insulating wall, the outlet duct and the return duct permitting the low temperature compartment to communicate with the cooler compartment; a first fan positioned in the outlet duct; a low-temperature-compartment partition wall that partitions the low temperature compartment into right and left sections; a high-temperature-compartment duct positioned at the back of the high temperature compartment; a cold air intake duct positioned in the low-temperature-compartment partition wall, the cold air intake duct having an air inlet at one end and an air outlet at the other end, the air inlet opening into the low temperature compartment, the air outlet opening into the high temperature-compartment duct; and a second fan positioned at the air outlet of the cold air intake duct. As used herein, except where the context requires otherwise, the term "comprise" and variations of the term, such as "comprising", "comprises" and "comprised", are not intended to exclude further additives, components, integers or steps. [Advantageous Effects of Invention] [0008] According to the present invention, the whole of cold air in the cooler compartment is sent to the low temperature compartment by the first fan. To cool the high temperature compartment, the cold air in the low temperature compartment is sent to the high temperature compartment by the second fan. Advantageously, even in a case of cooling the high temperature compartment, there is no possibility that the cooling efficiency in the low temperature compartment would be lowered.

[Brief Description of Drawings] [0009] [Fig. 1] Fig. 1 is a schematic diagram of a refrigerator-freezer according to Embodiment 1 of the present invention, and illustrates a state in which a door of the refrigerator-freezer is detached. [Fig. 2] Fig. 2 is a sectional view taken along the line A-A in Fig. 1, with some parts being omitted. [Fig. 3] Fig. 3 is a diagram illustrating a cold air path in the refrigerator-freezer according to the present invention. [Fig. 4] Fig. 4 is a diagram explaining essential part of a refrigerator-freezer according to Embodiment 2 of the present invention. [Fig. 5] Fig. 5 is a diagram illustrating a cold air path in a conventional refrigerator freezer. [Description of Embodiments] [0010] [Embodiment 1] Fig. 1 is a schematic diagram of a refrigerator-freezer according to Embodiment 1 of the present invention, and illustrates a state in which a door of the refrigerator-freezer is detached. Fig. 2 is a sectional view taken along the line A-A in Fig. 1, with some parts being omitted. In Figs. 1 and 2, a thermally insulated casing 1 constitutes a refrigerator-freezer body with an open front and includes an outer case 1 a made of a steel plate, an inner case 1b which serves as a resin molded component, and a thermal insulator 1 c filled in a space between the outer case 1a and the inner case 1b. [0011] A thermal insulating partition wall 2 separates a low temperature compartment 3, such as a freezer, and a high temperature compartment 4, such as a refrigerator. The low temperature compartment 3 is partitioned into two sections by a low temperature-compartment partition wall 5. The low-temperature-compartment partition wall 5 may be omitted and the low temperature compartment 3 may be a single space. A low-temperature-compartment door 6 opens and closes a front opening of the low temperature compartment 3. A high-temperature-compartment door 7 opens and closes a front opening of the high temperature compartment 4. [0012] A low-temperature-compartment back thermal insulating wall 8 is placed at the back of the low temperature compartment 3. A cooler compartment 9 is provided between the low-temperature-compartment back thermal insulating wall 8 and the inner case 1b of the thermally insulation casing 1. A cooler 10 is placed in the cooler compartment 9. An outlet duct 11 permits upper part of the low temperature compartment 3 to communicate with the cooler compartment 9. A return duct 12 permits lower part of the low temperature compartment 3 to communicate with the cooler compartment 9. An inside cooling fan (hereinafter, referred to as a "first fan") 5 13 is placed in the outlet duct 11. [0013] A high-temperature-compartment back thermal insulating wall 14 is placed at the back of the high temperature compartment 4. A high-temperature-compartment duct 15 is provided between the high-temperature-compartment back thermal insulating wall 14 and the inner case 1b of the thermally insulation casing 1. 4 The thermal insulating partition wall 2 includes a cold air intake duct 16 of which one end opens into the low temperature compartment 3 to form an air inlet 16a, and the other end of the duct opens into the high-temperature-compartment duct 15 to form an air outlet 16b. [0014] A high-temperature-compartment cooling fan (hereinafter, referred to as a "second fan") 17 is placed at the air outlet 16b of the cold air intake duct 16 to the high-temperature-compartment duct 15. Referring to Fig. 1, low-temperature compartment cold air outlets 18 are provided in the low-temperature-compartment back thermal insulating wall 8 and permit the low temperature compartment 3 to communicate with the cooler compartment 9. High-temperature-compartment cold air outlets 19 are arranged in the high-temperature-compartment back thermal insulating wall 14 and permit the high temperature compartment 4 to communicate with the high-temperature-compartment duct 15. [0015] A cooling action of the refrigerator-freezer having the above-described structure will be described below. The whole of air (cold air), cooled by the cooler 10, in the cooler compartment 9 is blown into the low temperature compartment 3 through the outlet duct 11 and the low-temperature-compartment cold air outlets 18 by the first fan 13, so as to cool the inside of the low temperature compartment 3. The air is returned through the return duct 12 to the cooler compartment 9 and is again cooled by the cooler 10. [0016] When the inside of the high temperature compartment 4 is cooled, the second 5 fan 17 is driven to rotate. Thus, the cold air in the low temperature compartment 3 is sucked through the air inlet 16a into the cold air intake duct 16 and is sent through the air outlet 16b to the high-temperature-compartment duct 15 and is then blown through the high-temperature-compartment cold air outlets 19 provided in the high temperature-compartment back thermal insulating wall 14, thus cooling the inside of 5 the high temperature compartment 4. The air is returned from a high-temperature compartment return duct (not illustrated) to the cooler compartment 9. [0017] As described above, in Embodiment 1, the whole of the lowest temperature cold air cooled in the cooler compartment 9 is sent to the low temperature compartment 3 by the first fan 13, and the cold air is used to cool the low temperature compartment 3, as illustrated in Fig. 3. Furthermore, the cold air, serving as the atmosphere in the low temperature compartment 3, sent through the cold air intake duct 16 is used to cool the high temperature compartment 4. Although this cold air has a higher temperature than the cold air blown directly from the first fan 13, the higher temperature cold air is sufficient to cool the inside of the high temperature compartment 4 at a target temperature. [0018] Furthermore, an area close to the air inlet 16a of the cold air intake duct 16 is at a low pressure. Accordingly, placing the air inlet 16a in a position (for example, near the low-temperature-compartment door 6) where the temperature tends to rise in the low temperature compartment 3 enables the cold air blown into the low temperature compartment 3 by the first fan 13 to be drawn to the air inlet 16a of the cold air intake duct 16, thereby making it possible to reduce temperature variations in the low temperature compartment 3. [0019] Furthermore, an air path is configured such that the whole of cold air in the cooler compartment 9 is sent to the low temperature compartment 3. Accordingly, the quantity of cold air sent to the low temperature compartment 3 is not reduced during 5 cooling of the high temperature compartment 4. Advantageously, an increase in temperature in the low temperature compartment 3 can be minimized. [0020] [Embodiment 2] 6 Fig. 4 is a diagram explaining principal part of a refrigerator-freezer according to Embodiment 2 of the present invention. The same components as those in Embodiment 1 are designated by the same reference numerals. According to Embodiment 2, a refrigerator-freezer having the low-temperature compartment partition wall 5 illustrated in Fig. 1, in the low temperature compartment 3 thereof is presented, wherein cold air in the low temperature compartment 3 is led to the high temperature compartment 4 and a cold air intake duct 20 is provided in the low-temperature-compartment partition wall 5. The cold air intake duct 20 has an air inlet 20a at one end and an air outlet 20b at the other end, the air inlet 20a opening into the low temperature compartment 3, the air outlet 20b extending through the thermal insulating partition wall 2 and opening into the high-temperature compartment duct 15. The second fan 17 is placed at the air outlet 20b. [0021] Embodiment 2 offers substantially the same advantages as those of Embodiment 1. In addition, since the most part of the cold air intake duct 20 is placed in the low-temperature-compartment partition wall 5, the thickness of a thermal insulating layer, serving as the thermal insulating partition wall 2 separating the low temperature compartment 3 and the high temperature compartment 4, is not reduced. Furthermore, since the sections on both sides of the low-temperature compartment partition wall 5 in the low temperature compartment 3 are in the same temperature zone, a thermal insulating structure between the sections may be omitted or be very thin. The area of the duct leading to the high temperature compartment 4 can be sufficiently secured without taking account of the influence of the temperature of the inside of the refrigerator-freezer, which is caused by reduction of thermal insulation. [0022] Furthermore, although not illustrated, the cold air intake duct 16 according to Embodiment 1 and the cold air intake duct 20 according to Embodiment 2 may be provided in the thermal insulating partition wall 2 and the low-temperature 7 compartment partition wall 5, respectively, depending on the temperature distribution in the low temperature compartment 3. [0023] [Embodiment 3] According to Embodiment 3, a damper 21 (refer to Fig. 2) which closes and opens an air path is placed upstream of the second fan 17 in the cold air intake duct 16 or 20 positioned in the thermal insulating partition wall 2 or the low-temperature compartment partition wall 5 in the refrigerator-freezer according to Embodiment 1 or 2. According to Embodiment 3, the flow of cold air from the low temperature compartment 3 to the high temperature compartment 4 can be interrupted with reliability by closing the damper 21. Thus, temperature in the low temperature compartment 3 can be more reliably controlled. [Explanation of Reference Numerals] [0024] 1: thermally insulation casing, 1a: outer case, 1b: inner case, 1c: thermal insulator, 2: thermal insulating partition wall, 3: low temperature compartment, 4: high temperature compartment, 5: low-temperature-compartment partition wall, 6: low temperature-compartment door, 7: high-temperature-compartment door, 8: low temperature-compartment back thermal insulating wall, 9: cooler compartment, 10: cooler, 11: outlet duct, 12: return duct, 13: inside cooling fan (first fan), 14: high temperature-compartment back thermal insulating wall, 15: high-temperature compartment duct, 16, 20: cold air intake duc, 16a, 20a: air inlet, 16b, 20b: air outlet, 17: high-temperature-compartment cooling fan (second fan), 18: low-temperature compartment cold air outlet, 19: high-temperature-compartment cold air outlet, and 21: damper. 8

Claims (14)

1. An apparatus for providing telephony services comprising: a programmable multimedia controller having at least one interface for communicating 5 with a public switched telephone network, a private network or an internet, a plurality of video display devices coupled in communicating relation with the programmable multimedia controller; a user interface, an on-screen display of which is configured to be displayed on any of the plurality of video display devices, the user interface configured to function as a virtual 10 telephone and user-operable to initiate outgoing telephone calls and to answer incoming telephone calls, wherein the programmable multimedia controller is configured to display the on-screen display of the user interface on a selected one of the plurality of video display devices, and to cause the on-screen display of the user interface to show text and graphics related to an 15 outgoing telephone call or an incoming telephone call overlaid on another video signal which is already being displayed on the selected one of the video display devices, while other of the plurality of video display devices that are not selected to use with the outgoing telephone call or the incoming telephone call do not show the on-screen display. !0

2. The apparatus of claim 1 wherein the user interface comprises a remote control having location awareness that enables the programmable multimedia controller to determine a zone in which the remote control is located, wherein the selected one of the plurality of video display devices on which the on-screen display of the user interface is shown is selected based on the zone in which the 25 remote control is located.

3. The apparatus of claim 1 or 2, wherein the selected one of the plurality of video display device is a television. 30

4. The apparatus of claim 1, 2 or 3, wherein the another video signal is a broadcast, cable or satellite television (TV) program.

5. The apparatus of any one of the preceding claims, wherein the user interface comprises a telephone handset and the programmable multimedia controller is configured to cause the 13 on-screen display of the user interface to be responsive to digits entered on the telephone handset.

6. The apparatus of any one of claims 1 to 4, wherein the user interface comprises an 5 MP3 player and the programmable multimedia controller is configured to cause the on-screen display of the user interface to be responsive to the MP3 player.

7. The apparatus of any one of the preceding claims, wherein the text and graphics related to the outgoing telephone call or the incoming telephone call comprise an announcement 10 overlaid on the another video signal when an incoming call is received.

8. The apparatus of any one of the preceding claims, wherein the outgoing telephone call or the incoming telephone call has a call type of voice, voice conference, video, or video conference. 15

9. The apparatus of claim 8, wherein call type is dependent upon equipment available to a called party.

10. A method for providing telephony services comprising: ?0 using a programmable multimedia controller to interface with a public switched telephone network, a private network or an internet; communicating between the programmable multimedia controller and a plurality of video display devices; generating an on-screen display of a user interface, the on-screen display to be 25 displayed on any of the plurality of video display devices, the user interface to function as a virtual telephone and user-operable to initiate outgoing telephone calls and to answer incoming telephone calls, causing, by the programmable multimedia controller, the on-screen display of the user interface to be displayed on a selected one of the plurality of video display devices, the 30 on-screen display of the user interface to show text and graphics related to an outgoing telephone call or an incoming telephone call overlaid on another video signal which is already being displayed on the selected one of the video display devices, while other of the plurality of video display devices that are not selected to use with the outgoing telephone call or the incoming telephone call do not show the on-screen display. 14

11. The method of claim 10 wherein the user interface comprises a remote control having location awareness and the method further comprises: determining a zone in which the remote control is located; and 5 selecting the selected one of the plurality of video display devices on which the on-screen display of the user interface is shown based on the zone in which the remote control is located.

12. The method of claim 10 or 11, wherein the selected one of the plurality of video 10 display device is a television.

13. The method of claim 10, 11 or 12 wherein, the another video signal is a broadcast, cable or satellite television (TV) program. 15

14. The method of any one of claims 10 to 13, wherein the text and graphics related to the outgoing telephone call or the incoming telephone call comprise an announcement overlaid on the another video signal when an incoming call is received. !0 <flename>