Patent application title: DISPENSER MODULE AND REFRIGERATOR INCLUDING THE SAME
Inventors:
IPC8 Class: AF25C500FI
USPC Class:
1 1
Class name:
Publication date: 2017-10-26
Patent application number: 20170307272
Abstract:
Embodiments of the present disclosure provide a dispenser module and a
refrigerator including the same, which are capable of preventing ice from
being scattered around the refrigerator, and ensures that ice is only
discharged using a specified route. A dispenser module is disclosed,
including a dispenser body having a discharge port, a guide wall formed
along an edge of the dispenser body so as to protrude from the dispenser
body, an ice cap mounted to the guide wall and configured to be rotated
by a drive unit to open or close a movement route through which ice is
moved toward the discharge port. The dispenser module further includes a
push lever having an end mounted to the dispenser body and extending away
from the guide wall, and a switch configured to control an operation of
the drive unit by sensing a rotation of the push lever.Claims:
1. An ice dispenser for a refrigerator, the ice dispenser comprising: a
dispenser body comprising a discharge port; a guide wall disposed on an
edge of the dispenser body and protruding outward from the dispenser
body; a rotatable ice cap mounted on the guide wall, wherein the
rotatable ice cap is rotated by a drive unit, and wherein rotation of the
rotatable ice cap selectively opens a route through which ice is operable
to be moved to the discharge port; a push lever comprising a first end
portion rotatably mounted on the dispenser body, and a second end portion
extending away from the guide wall; and a switch configured to activate
the drive unit when the push lever is manipulated.
2. The ice dispenser of claim 1, wherein activating the drive unit causes ice to be dispensed.
3. The ice dispenser of claim 1, wherein the guide wall is disposed on at least a portion of the edge of the dispenser body and extends upward, wherein an upper end of the guide wall is disposed above the rotatable ice cap.
4. The ice dispenser of claim 1, wherein the guide wall comprises: a first sidewall disposed at a first side of the rotatable ice cap; a second sidewall disposed at a second side of the rotatable ice cap; and a rear wall interconnecting the sidewalls, wherein the rear wall faces the rotatable ice cap, and wherein the first side and second side are opposite sides.
5. The ice dispenser of claim 4, wherein the rotatable ice cap comprises a shaft mounted to the sidewalls and a stopper connected to the shaft and configured to open or close a movement route connected to the discharge port.
6. The ice dispenser of claim 5, further comprising an elastic member, wherein the elastic member is configured to provide a restoration force to the rotatable ice cap and is mounted to a first end of the shaft, and wherein the drive unit is mounted to a second end of the shaft.
7. The ice dispenser of claim 3, wherein the rotatable ice cap comprises an end configured to contact an inner surface of the rear wall when the rotatable ice cap is rotated.
8. A dispenser module, the dispenser module comprising: a dispenser body comprising a discharge port; a guide wall disposed on an edge of the dispenser body and protruding away from the dispenser body; a hinged ice cap mounted to the guide wall using a hinge and operable to be rotated by a drive unit; a hinged push lever comprising: a first end mounted to the dispenser body using a hinge; and a second end extending outward from the guide wall; and a switch configured to activate the drive unit when a manipulation of the push lever is detected, wherein the guide wall is disposed on at least a portion of the edge of the dispenser body and extends upward, and wherein an upper end of the guide wall is disposed above the hinged ice cap.
9. The dispenser module of claim 8, wherein activating the drive unit causes ice to be dispensed.
10. The dispenser module of claim 8, wherein the hinged push lever is separated from the dispenser body by a gap.
11. A refrigerator comprising: a refrigerator main body; a refrigerator door mounted to the refrigerator main body and configured to rotate for selectively opening and closing the refrigerator main body; a dispenser module comprising a switch, wherein the dispenser module is disposed within the refrigerator door; and an ice maker disposed within the refrigerator main body configured to produce ice and supply the ice to the dispenser module in response to a signal transmitted from the switch.
12. The refrigerator of claim 11, further comprising a push lever mounted to the refrigerator door for activating the switch, wherein at least a portion of the push lever is exposed outside of the refrigerator.
13. The refrigerator of claim 12, further comprising: a guide wall disposed on an edge of the dispenser module; and an ice cap mounted to the guide wall, wherein an upper end of the guide wall extends upward above the ice cap.
14. The refrigerator of claim 13, wherein the guide wall comprises: a first sidewall disposed at a first side of the ice cap; a second sidewall disposed at a second side of the ice cap; and a rear wall interconnecting the sidewalls, wherein the rear wall faces the ice cap, and wherein the first side and the second side are opposite sides.
15. The refrigerator of claim 14, wherein the ice cap is rotatable and comprises: a shaft mounted to the first and second sidewalls; and a stopper connected to the shaft and configured to open and close a movement route for ice.
16. The refrigerator of claim 15, further comprising: an elastic member configured to provide a restoration force to the ice cap mounted to a first end of the shaft; and a drive unit mounted to a second end of the shaft, wherein the drive unit rotates the ice cap to dispense ice.
17. The refrigerator of claim 14, wherein the ice cap comprises an end that contacts an inner surface of the rear wall when the ice cap is rotated.
18. The refrigerator of claim 14, wherein the ice cap is mounted to the guide wall using a hinge and comprises a stopper configured to open and close a movement route for ice.
Description:
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application is based on and claims priority from Korean Patent Application No. 10-2016-0048056, filed on Apr. 20, 2016, the disclosure of which is incorporated herein in its entirety by reference.
TECHNICAL FIELD
[0002] The present disclosure relates to refrigerators, and more specifically, to a dispenser module and a refrigerator including the same.
BACKGROUND
[0003] A refrigerator is an apparatus for storing food for by keeping a refrigeration compartment and a freezing compartment at a low temperature using a heat exchange process involving a refrigerant, where a freezing cycle consisting of compression, condensation, expansion and evaporation is used to generate cold air.
[0004] In general, a refrigerator includes a refrigerator main body with a freezing compartment and a refrigeration compartment for storing food at a low temperature, and refrigerator doors mounted to a front surface of the refrigerator main body to selectively open and close the freezing compartment and the refrigeration compartment.
[0005] Top-mount refrigerators with a freezing compartment disposed above a refrigeration compartment are a common type of refrigerator. In recent years, bottom-freeze refrigerators with a freezing compartment positioned at a lower end of the refrigerator have become popular due to enhanced user convenience. However, for bottom-freeze refrigerators, the freezing compartment is positioned lower which may be inconvenient when a user wants to retrieve ice from the freezer.
[0006] In order to solve this problem, bottom-freeze refrigerator may include a dispenser disposed on a refrigeration compartment door for dispensing ice. The dispenser is installed in the refrigeration compartment door, and a user may dispense ice by placing a container on the dispenser and pressing a push member or a button, for example.
[0007] However, the ice may be scattered around in the course of dispensing the ice through the dispenser and may become lodged in other parts of the refrigerator. This may lead to sanitary problems when ice and/or water sits in areas of the refrigerator that are intended to be kept dry. Accordingly, a demand exists for a dispenser that enables ice pieces to be discharged only through a specified route without being scattered around the refrigerator.
SUMMARY
[0008] Embodiments of the present disclosure provide a dispenser module and a refrigerator including the same, which are capable of preventing ice pieces from being scattered around the refrigerator and ensure that ice is only discharged from a specified route.
[0009] According to one embodiments, an ice dispenser for a refrigerator is disclosed, including a dispenser body comprising a discharge port, a guide wall disposed on an edge of the dispenser body and protruding outward from the dispenser body, a rotatable ice cap mounted on the guide wall, wherein the rotatable ice cap is rotated by a drive unit, and rotating the rotatable ice cap selectively opens a route through which ice is moved to the discharge port, a push lever mounted to the dispenser body, where a space separates the push level from the guide wall, and a switch configured to activate the drive unit when the push lever is depressed.
[0010] According to another embodiment, a dispenser module is disclosed, including a dispenser body having a discharge port, a guide wall disposed on an edge of the dispenser body and protruding away from the dispenser body, a hinged ice cap mounted to the guide wall using a hinge and rotated by a drive unit, a hinged push lever including a first end mounted to the dispenser body using a hinge, and a second end extending outward from the guide wall, and a switch configured to activate the drive unit when rotation of the push lever is detected. The guide wall is disposed on at least a portion of the edge of the dispenser body and extends upward, and an upper end of the guide wall is above the hinged ice cap.
[0011] According to another embodiment, a refrigerator is disclosed, including a refrigerator main body, a refrigerator door mounted to the refrigerator main body and configured to rotate for selectively opening and closing the refrigerator main body, a dispenser module disposed in the refrigerator door, and an ice maker disposed on the refrigerator main body configured to produce ice and supply the ice to the dispenser module in response to a signal transmitted from the switch.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] FIG. 1 is a schematic perspective view illustrating an exemplary refrigerator according to one embodiment of the present disclosure.
[0013] FIG. 2 is an enlarged view of a region of an exemplary refrigerator designated by A in FIG. 1.
[0014] FIG. 3A is a schematic perspective view of an exemplary dispenser module according to one embodiment of the present disclosure.
[0015] FIG. 3B is a schematic perspective view of the exemplary dispenser module illustrated in FIG. 3A from a second angle.
[0016] FIG. 4A is a schematic perspective view of an exemplary dispenser module with an ice cap thereof removed.
[0017] FIG. 4B is a schematic perspective view of the exemplary dispenser module illustrated in FIG. 4A viewed from a second angle.
[0018] FIG. 5 is a schematic side view of an exemplary dispenser module according to one embodiment of the present disclosure.
[0019] FIG. 6 is a schematic sectional view illustrating an exemplary process for discharging ice from the dispenser module according to one embodiment of the present disclosure.
DETAILED DESCRIPTION
[0020] In the following detailed description, reference is made to the accompanying drawings, which form a part of the description herein. The illustrative embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from the spirit or scope of the subject matter presented here.
[0021] One or more exemplary embodiments of the present disclosure will be described more fully hereinafter with reference to the accompanying drawings, in which one or more exemplary embodiments of the disclosure can be easily determined by those skilled in the art. As those skilled in the art will realize, the described exemplary embodiments may be modified in various different ways, all without departing from the spirit or scope of the present disclosure, which is not limited to the exemplary embodiments described herein.
[0022] It is noted that the drawings are schematic and are not necessarily dimensionally illustrated. Relative sizes and proportions of parts in the drawings may be exaggerated or reduced in size, and a predetermined size is merely exemplary and not limiting. The same reference numerals designate the same structures, elements, or parts illustrated in two or more drawings in order to exhibit similar characteristics.
[0023] The exemplary drawings of the present disclosure illustrate ideal exemplary embodiments of the present disclosure in more detail. As a result, various modifications of the drawings are expected. Accordingly, the exemplary embodiments are not limited to a specific form of the illustrated region, and for example, include a modification of a form by manufacturing.
[0024] Embodiments of the present disclosure will now be described in detail with reference to the accompanying drawings.
[0025] FIG. 1 is a schematic perspective view illustrating an exemplary refrigerator 1 according to one embodiment of the present disclosure. FIG. 2 is an enlarged view of a region designated A in FIG. 1.
[0026] Referring to FIGS. 1 and 2, an exemplary refrigerator according to one embodiment of the present disclosure includes a refrigerator main body 11 configured to define an outer shell, refrigerator doors 12 (12a and 12b) coupled to the refrigerator main body 11 to selectively open and close the refrigerator main body 11, a dispenser module 100 installed in one of the refrigerator doors 12, and an ice maker 14 provided inside the refrigerator main body 11 and configured to supply ice to the dispenser module 100.
[0027] The bottom-freeze refrigerator 1 includes a freezing compartment at a lower side thereof. However, the present disclosure is not limited thereto. The present disclosure may be applicable to different types of refrigerators such as a top-mount refrigerator and other types which are widely used in the related art.
[0028] The refrigerator main body 11 may include an internal space which may be selectively opened and closed by the refrigerator doors 12. For example, the interior of the refrigerator main body 11 may be divided into a refrigeration compartment R and a freezing compartment F, which may be selectively opened and closed by a refrigeration compartment door 12a and a freezing compartment door 12b, respectively.
[0029] The dispenser module 100 may be disposed on one of the refrigerator doors 12. For example, the dispenser module 100 may be disposed on an outer surface of the refrigeration compartment door 12a. An opening 11a may be provided in the refrigeration compartment door 12a. A push lever 140 of the dispenser module 100 may be accessible through the opening 11a to enable a user to use the dispenser module 100 without having to open the refrigeration compartment door 12a.
[0030] The ice maker 14 is configured to receive water from an external water source and to produce ice, and may be provided inside the refrigeration compartment R. The ice maker 14 and the dispenser module 100 may be connected to each other by a separate connection pipe 13 (see FIG. 6). The ice produced in the ice maker 14 may be discharged through the dispenser module 100. For example, the ice maker 14 may supply the ice to the dispenser module 100 in response to a signal transmitted from a switch 150.
[0031] FIG. 3A is a schematic perspective view of an exemplary dispenser module 100 according to one embodiment of the present disclosure, and FIG. 3B is a schematic perspective view of the dispenser module 100 illustrated in FIG. 3A, viewed from a second angle. FIG. 4A is a schematic perspective view of the dispenser module 100 with an ice cap thereof removed, and FIG. 4B is a schematic perspective view of the dispenser module 100 illustrated in FIG. 4A viewed from a second angle. FIG. 5 is a schematic side view of the dispenser module 100 according to one embodiment of the present disclosure. FIG. 6 is a schematic sectional view illustrating an exemplary process for discharging ice from the dispenser module 100 according to one embodiment of the present disclosure.
[0032] Referring to FIGS. 3A to 6, the dispenser module 100, according to one embodiment of the present disclosure, may be provided in the refrigerator 1 to dispense ice. For example, the dispenser module 100 may be provided on a surface of the refrigeration compartment door 12a in order to enable a user to easily obtain ice from the refrigerator 1.
[0033] The dispenser module 100 may include a dispenser body 110, a guide wall 120, an ice cap 130, a push lever 140 and a switch 150.
[0034] The dispenser body 110 may be coupled to one of the refrigerator doors 12, and may use a shoot or pathway for discharging ice, such as discharge port 110a.
[0035] The guide wall 120 may protrude from an edge of the dispenser body 110. When the ice is discharged through the dispenser module 100, the guide wall 120 prevents the ice from being scattered outward. With regard to FIG. 6, when the ice I is supplied to the dispenser module 100, some of the ice I may not enter the discharge port 110a and may move to the outside of the discharge port 110a after colliding with the dispenser body 110. In this case, the guide wall 120 prevents the ice from being scattered outward and guides the ice toward the discharge port 110a.
[0036] For example, the guide wall 120 may surround at least a portion of the discharge port 110a. The ice cap 130 may be disposed on a portion of the discharge port 110a not covered by the guide wall 120.
[0037] The guide wall 120 may be provided along at least a portion of the edge of the dispenser body 110 and extend upward. The upper end of the guide wall 120 may be disposed above the ice cap 130.
[0038] For example, the guide wall 120 may include sidewalls 121 disposed at the opposite sides of the ice cap 130 and a rear wall portion 122 configured to interconnect the sidewalls 121 and face the ice cap 130.
[0039] In this regard, the upper ends of the sidewalls 121 and the rear wall portion 122 may be disposed on the same plane. In other words, the sidewalls 121 and the rear wall portion 122 may be provided along at least a portion of an edge of the discharge port 110a and protrude upward to guide the ice discharged from the ice maker 14 toward the discharge port 110a.
[0040] The guide wall 120 and the dispenser body 110 may be combined as a single object or provided as separate components. For example, the guide wall 120 may be manufactured using injection-molding, where the guide wall 120 and the dispenser body 110 are formed into a single component. Alternatively, the guide wall 120 may be independently manufactured and fixed to the dispenser body 110 by bonding, screw-fixing or other methods.
[0041] The ice cap 130 may be mounted to the guide wall 120 in a rotatable or hinged manner. In one example, the ice cap 130 may be mounted to the sidewalls 121 of the guide wall 120 using a hinge. The ice cap 130 may be connected to a separate drive unit 160 and may be rotated by the drive unit 160. In this regard, the drive unit 160 may rotate the ice cap 130 in response to a signal applied from the switch 150.
[0042] The ice cap 130 may include a shaft 131 mounted to the sidewalls 121 using a hinge, and a stopper 132 connected to the shaft 131 and configured to open and/or close a route through which ice is moved toward the discharge port 110a.
[0043] The sidewalls 121 may include a first insertion hole 121a and a second insertion hole 121b into which the shaft 131 is rotatably inserted. In this regard, one side of the first insertion hole 121a may include a slit or narrow opening. When the shaft 131 of the ice cap 130 is combined with the sidewalls 121, an end portion of the shaft 131 may be inserted into the second insertion hole 121b, and another end portion of the shaft 131 may be pressed into to the first insertion hole 121a.
[0044] An elastic member 133 configured to apply a restoration force to the ice cap 130 may be disposed on one end portion of the shaft 131. The elastic member 133 may be, for example, a coil spring or a torsion spring. When the ice cap 130 is rotated in one direction by the drive unit 160, the elastic member 133 may provide a rotational force for returning the ice cap 130 to an original position. When the ice cap 130 is rotated by the drive unit 160, the end portion of the ice cap 130 may make contact with the inner surface of the rear wall portion 122.
[0045] The operation of the drive unit 160 may be controlled by the switch 150 provided at one side of the dispenser body 110. The switch 150 may sense the rotation of the push lever 140 and may transmit a start signal or a stop signal to the drive unit 160.
[0046] The push lever 140 may make contact with the switch 150. When the push lever 140 is brought into contact with the switch 150, the switch 150 may transmit a signal to the drive unit 160 and the ice maker 14. Upon receiving the signal from the switch 150, the drive unit 160 rotates the ice cap 130 and opens the discharge port 110a. In this way, the ice maker 14 can supply ice to the dispenser module 100. Because the discharge port 110a is opened by a rotation of the ice cap 130, the ice supplied from the ice maker 14 can be discharged through the discharge port 110a. When discharging ice, some ice may collide with the pipe 13, which interconnects the ice maker 14 and the dispenser module 100, or the dispenser body 110. However, the guide wall 120 prevents the ice from being scattered or discharged through a route other than the route provided by the discharge port 110a.
[0047] The push lever 140 may be mounted to the dispenser body 110 in a hinged manner. For example, one end portion of the push lever 140 may be rotatably mounted to the dispenser body 110 and the other end portion of the push lever 140 may extend away from the guide wall 120. In this way, at least a portion of the push lever 140 may be exposed through the opening 11a of the refrigeration compartment door 12a. Accordingly, a user may push the push lever 140 using a cup, container (e.g., container B) or the like without having to open the refrigerator door 12.
[0048] If a user pushes the push lever 140, a switch contact projection 141 disposed at one side of the push lever 140 may be rotated to press the switch 150. As the switch contact projection 141 presses the switch 150, the ice discharge process is performed as described above.
[0049] The method of operating the switch 150 may be changed to many different methods widely used in the related art. For example, a separate photo sensor may be installed so that a switch is operated when a container is detected by the photo sensor. Alternatively, a pressure sensor may be installed on the surface on which a container is seated, so that a switch is operated when a container is detected by the pressure sensor.
[0050] The dispenser module 100 according to one embodiment of the present disclosure includes the guide wall 120 which surrounds at least a portion of an edge of the discharge port 110a for preventing ice from being scattered in the refrigerator or moved away from the intended route. In addition, the guide wall 120 is an integral part of the dispenser module 100. Therefore, there is no need to install a separate guide member in the dispenser body 110 to prevent ice from moving away from the specified movement route.
[0051] From the foregoing, it will be appreciated that various embodiments of the present disclosure have been described herein for purposes of illustration, and that various modifications may be made without departing from the scope and spirit of the present disclosure. The exemplary embodiments disclosed in the specification of the present disclosure do not limit the present disclosure. The scope of the present disclosure will be interpreted by the claims below, and it will be construed that all techniques within the scope equivalent thereto belong to the scope of the present disclosure.
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