Abstract
A cooling appliance includes a storage compartment for receiving goods to be cooled, and an air duct assembly in fluid communication with the storage compartment. The air duct assembly includes at least one air duct for suctioning the cool air from the storage compartment. A sensing element senses the temperature of the cool air of the storage compartment. The air duct has a first duct housing part with an air suctioning entrance opening through which the cool air enters into the air duct, and an external second duct housing part on which the sensing element is provided. The external second duct housing part is configured to be selectively connected to the first duct housing part.
Claims
1. A cooling appliance, comprising: a storage compartment for receiving goods to be cooled; an air duct assembly in fluid communication with said storage compartment, said air duct assembly including at least one air duct for suctioning cool air from said storage compartment; said at least one air duct including a first duct housing part having an air suctioning entrance opening through which the cool air enters into said air duct, and an external second duct housing part configured to be selectively connected to said first duct housing part; and a sensing element for sensing a temperature of the cool air of said storage compartment, said sensing element being provided on said external second duct housing part.
2. The cooling appliance according to claim 1, wherein said first duct housing part is box-shaped, said second duct housing part defines a lateral wall of said box-shaped first duct housing part, and said second duct housing part is connected to said first duct housing part.
3. The cooling appliance according to claim 2, wherein said lateral wall is an upper wall of said box-shaped first duct housing part, and said lateral wall is in a plane perpendicular to said air suctioning entrance opening.
4. The cooling appliance according to claim 1, wherein said second duct housing part has a lower side facing an inside of said first duct housing part, and said second duct housing part is configured to hold said sensing element at said lower side.
5. The cooling appliance according to claim 1, wherein said first and second duct housing parts are configured to be connected to each other by a sliding movement of said second duct housing part towards said first duct housing part.
6. The cooling appliance according to claim 5, wherein said second duct housing part has edge portions, and said first duct housing part includes guiding grooves for guiding said edge portions.
7. The cooling appliance according to claim 6, wherein each of said guiding grooves is respectively defined by a first wall and a second wall spaced apart from said first wall.
8. The cooling appliance according to claim 1, wherein said first duct housing part has engagement members, and said second duct housing part has at least one engagement member for engaging with at least one of said engagement members of said first duct housing part, upon connecting said second duct housing part to said first duct housing part.
9. The cooling appliance according to claim 8, wherein said engagement members of said first duct housing part include two engagement members, and said at least one engagement member of said second duct housing part includes two engagement members.
10. The cooling appliance according to claim 1, wherein said second duct housing part includes wall receiving portions, and said first duct housing part includes sidewalls being at least partially received by said wall receiving portions, upon connecting said second duct housing part to said first duct housing part.
11. The cooling appliance according to claim 4, wherein said second duct housing part includes a sensing element holding chamber, provided at said lower side of said second duct housing part, for holding said sensing element in a tight-fit manner.
12. The cooling appliance according to claim 4, wherein said sensing element has a cable, and said second duct housing part includes a cable guiding groove shaped and sized with respect to a shape and pathway of said cable, said cable guiding groove being provided at said lower side of said second duct housing part.
13. The cooling appliance according to claim 12, wherein said second duct housing part includes at least a pair of cable holding members for holding said cable at least partially inside said cable guiding groove.
14. The cooling appliance according to claim 12, wherein said second duct housing part has a cable guiding hole formed at an end of said cable guiding groove, and said cable guiding hole is configured to allow said cable to pass through.
15. The cooling appliance according to claim 14, wherein: said second duct housing part has an upper side disposed opposite to said lower side of said second duct housing part; a circumferential wall is provided at a periphery of said cable guiding hole at said upper side of said second duct housing part; said circumferential wall extends away from said second duct housing part; and a gap covering member covers a gap between said cable and said circumferential wall.
16. The cooling appliance according to claim 15, wherein said gap covering member is a foam member.
Description
BRIEF DESCRIPTION OF THE FIGURES
[0029] FIG. 1 is a representative, diagrammatic, perspective view of the cooling appliance;
[0030] FIG. 2 is a representative, enlarged perspective view of the air duct assembly;
[0031] FIG. 3 is a representative, fragmentary, zoomed, perspective view of the rear wall of the cooling appliance where the subject-matter air duct is provided;
[0032] FIG. 4 is a representative, fragmentary, perspective view of the first duct housing part and second duct housing part in a demounted state;
[0033] FIG. 5 is a representative, fragmentary, perspective view of the first duct housing part and second duct housing part in a mounted state;
[0034] FIG. 6 is a representative, perspective view of the second duct housing part;
[0035] FIG. 7 is another representative, perspective view of the second duct housing part without a sensing member; and
[0036] FIG. 8 is yet another representative, perspective view of the second duct housing part with a sensing member.
DETAILED DESCRIPTION OF THE INVENTION
[0037] In this detailed description, the subject matter is explained with reference to examples without forming any restrictive effect, only in order to make the subject more understandable.
[0038] Referring now to the figures of the drawings in detail and first, particularly, to FIG. 1 thereof, there is seen a cooling appliance 1 which includes a body 2, at least one storage compartment 3 surrounded by the body 2 and one or more non-illustrated doors which may shield a front access opening 4 of the storage compartment 3. The storage compartment 3 may include a refrigerator compartment which keeps goods, e.g. food to be cooled, and a freezer compartment, which may keep food frozen. At least one non-illustrated cool air supply device is provided for generating and controlling the cool air. The cool air supply device includes a compressor, a condenser, at least one evaporator, at least one blowing fan and air carrying ducts, which are not shown in the figures. The evaporator may be connected to a refrigerant pipe and a refrigerant may be directed through the refrigerant pipe. The refrigerator compartment may be formed at an upper side of the freezer compartment. The cool air generated by the evaporator may be supplied to the storage compartment, the refrigerator compartment and/or the freezer compartment through the blowing fan. A plurality of non-illustrated cool air ducts are provided in the storage compartment 3 in such a way that cool air is supplied to the storage compartment 3 by operating the blowing fan. There is an inner liner 5 on a side facing the storage compartment 3. The inner liner 5 has a rear wall 6 provided at an opposite side from the front access opening 4. An air duct assembly 7 is positioned behind the rear wall 6 so as to be in fluid communication with the storage compartment 3.
[0039] As can be seen in FIG. 2, the air duct assembly 7 includes at least one air duct 71 for suctioning cool air 11 from the storage compartment 3. In FIG. 2, the exemplary air duct assembly 7 includes two air ducts. The air duct 71 is configured to have a first duct housing part 72. As can also be seen in FIG. 3, the first duct housing part 72 has an air suctioning entrance opening 74 through which the cool air 11 enters to the air duct 71. Afterwards, the cool air 11 follows the path of the air duct 71 behind the inner liner 5 in order to reach the non-illustrated evaporator not shown.
[0040] With reference to FIG. 4, in a possible embodiment, the air duct 71 is configured to have the first duct housing part 72, and an external second duct housing part 73. A sensing element 8, shown in FIG. 8, is provided on the second duct housing part 73. The second duct housing part 73 is configured to be selectively connected to the first duct housing part 72. The first duct housing part 72 has a portion provided in a substantially box-shaped manner. The second duct housing part 73 is a lateral wall of the box-shaped first duct housing part 72, when the second duct housing part 73 is connected to the first duct housing part 72. In a possible embodiment, the lateral wall is an upper wall 75, shown in FIG. 5, of the substantially box-shaped first duct housing part 72, which is in a plane perpendicular to the air suctioning entrance opening 74.
[0041] With reference to FIG. 4, the duct housing parts 72, 73 are configured to be connected to each other by a sliding movement of the second duct housing part 73 towards the first duct housing part 72. When the second duct housing part 73 is moved in a sliding direction s towards the first duct housing part 72, edge portions 81, shown in FIG. 6, of the second duct housing part 73 are guided by corresponding guiding grooves 78. The guiding grooves 78 are provided at opposite sides of the second duct housing part 73. Each of the guiding grooves 78 are defined with a first wall 79, and a second wall 80 spaced apart from the first wall 79. Stated in more detail, the guiding groove 78 is provided between the walls 79, 80. In a possible embodiment, the second duct housing part 73 includes at least one engagement member 82 for engaging with corresponding engagement members 83 of the first duct housing part 72, when the second duct housing part 73 is connected to the first duct housing part 72. In a possible embodiment, there are two mutual engagement members 82 and two corresponding engagement members 83. As can be seen in FIG. 4, the exemplary engagement members can be a flexible arm. The engagement members 82 can have a substantially L-shaped form. In more detail, the engagement members 82 have a first portion extending substantially parallel to the sliding direction s and a second portion extending substantially perpendicular to the sliding direction s. The second portion attaches to the corresponding engagement member 83 of the first duct housing part 72, when the second duct housing part 73 is connected to the first duct housing part 72. Before carrying out a foaming process of the body 2, which entails filling a gap between the inner liner 5 and the outer wall of the body 2 with an insulation element 12, shown in FIG. 5, the second duct housing part 73 is connected to the first duct housing part 72. The insulation element 12 prevents leakage of the cool air from the storage compartment 3.
[0042] As can be seen in FIG. 5, when the second duct housing part 73 is connected to the first duct housing part 72, the insulation element 12, such as a foam element, fills the gaps provided behind the inner liner 5. In order to prevent the leakage of the insulation element 12 from outside of the air duct assembly 7 to the inside of the air duct assembly 7, the second duct housing part 73 includes two mutual wall receiving portions 84 which at least partially receive the corresponding sidewalls 85 of the first duct housing part 72, when the second duct housing part 73 is connected to the first duct housing part 72. The wall receiving portions 84 are provided on a side of the second duct housing part 73 facing away from the inner liner 5. The wall receiving portions 84 are provided with a basically U-shaped cross-section. A portion of the U-shaped wall receiving portion 84 extends parallel to the sidewall 85 of the first duct housing part 72.
[0043] With reference to FIG. 6, the second duct housing part 73 includes a cable guiding hole 88 provided between the upper side 77 and lower side 76 of the second duct housing part 73. A circumferential wall 89 is provided on a circumference of the cable guiding hole 88 at the upper side 77 of the second duct housing part 73 which is opposite to the lower side 76, so as to extend away from the second duct housing part 73. In a possible embodiment, the circumferential wall 89 has a hollow cylindrical shape.
[0044] With reference to FIG. 7, in a possible embodiment, the second duct housing part 73 is configured to hold the sensing element 8 at the lower side 76 of the second duct housing part 73 facing inside the first duct housing part 72. The second duct housing part 73 includes a sensing element holding chamber 86 provided at the lower side 76 of the second duct housing part 73 so as to hold the sensing element 8 in a tight-fit manner. In order to hold the sensing element 8, the sensing element holding chamber 86 has one or more sidewalls 91 of the holding chamber 86 provided on a lower surface of the second duct housing part 73. Preferably, the sensing element holding chamber 86 has two substantially L-shaped sidewalls 91 of the holding chamber 86. A wall gap can be provided between the two L-shaped sidewalls 91 of the holding chamber 86. There is a cable guiding groove 87 shaped and sized with respect to a shape and pathway of a cable 9, shown in FIG. 4, of the sensing element 8. The cable guiding groove 87 is provided at the lower side 76 of the second duct housing part 73. In a possible embodiment, the cable guiding hole 88 is provided on an end of the cable guiding groove 87. The second duct housing part 73 includes at least a pair of cable holding members 90 for holding the cable at least partially inside the cable guiding groove 87.
[0045] With reference to FIG. 8, the sensing element 8 is positioned at least partially inside the sensing element holding chamber 86. The cable 9, which is electrically connected to the sensing element 8, follows the path of cable guiding groove 87. At an end of the cable guiding groove 87 the cable can pass through the cable guiding hole 88. A gap covering member 10, preferably a foam member, is provided so as to cover a gap between the cable 9 and the circumferential wall 89. The gap covering member 10 prevents the leakage of the insulation element 12 from outside of the air duct assembly 7 to the inside of the air duct assembly 7.
[0046] The following is a summary list of reference numerals and the corresponding structure used in the above description of the invention.
REFERENCE LIST
[0047] 1. cooling appliance [0048] 2. body [0049] 3. storage compartment [0050] 4. front access opening [0051] 5. inner liner [0052] 6. rear wall [0053] 7. air duct assembly [0054] 71. air duct [0055] 72. first duct housing part [0056] 73. second duct housing part [0057] 74. air suctioning entrance opening [0058] 75. upper wall [0059] 76. lower side [0060] 77. upper side [0061] 78. guiding groove [0062] 79. first wall [0063] 80. second wall [0064] 81. edge portion [0065] 82. engagement member [0066] 83. corresponding engagement member [0067] 84. wall receiving portion [0068] 85. sidewall [0069] 86. sensing element holding chamber [0070] 87. cable guiding groove [0071] 88. cable guiding hole [0072] 89. circumferential wall [0073] 90. cable holding member [0074] 91. sidewall of the holding chamber [0075] 8. sensing element [0076] 9. cable [0077] 10. gap covering member [0078] 11. cool air [0079] 12. insulation element [0080] s. sliding direction
