The present disclosure relates to a cup washer, and more specifically, to a cup washer for washing a cup carried by a user.
Contents described in this section simply provide background information on the present disclosure and do not constitute the related art.
Recently, in order to prevent environmental pollution, the frequency of provision of disposable cups to customers is reduced at stores where beverages are sold, and the trend in which a customer who visits a store carries a multi-use cup, such as a tumbler, and takes out the multi-use cup filled with a beverage is increasing.
In order to provide convenience to customers, that is, users of multi-use cups, it is necessary to provide a cup washer for washing a cup carried by the user in a store and allow the user to conveniently wash the cup carried by the user.
Therefore, the cup washer capable of cleaning the cup carried by the user is placed in the store such that the user cleans his or her cup in the store using the cup washer to provide the convenience. The cup washer needs to have a structure such that the cup washer may be easily used by anyone.
The related art related to a cup washer is disclosed in Korean Patent Application Laid-Open No. 10-020-0016470.
A cup washing process may largely include a washing step of spraying water to the cup to wash the cup, and then, a rinsing step of spraying clean water to the cup again to rinse the cup.
For clean washing of the cup, the washing step may be performed using a mixture of detergent with water, and the rinsing step may be performed using a mixture of a rinse with water.
However, in the prior art, only the washing of the cup using steam is disclosed. In particular, the prior art discloses washing the cup without using a detergent. Accordingly, a cup cleaning method using the detergent cannot be derived from the prior art.
In washing the cup using the cup washer, it is necessary to inject the detergent and the rinse into a washing unit in order to clean the cup. Accordingly, a device for injecting each of the detergent and the rinse into the washing unit needs to be provided in the cup washer.
In addition, in order to provide convenience to the user, the detergent injection device and the rinse injection device need to be configured such that the detergent and the rinse are injected into the washing unit at an appropriate time as the washing process proceeds without the user manually operating the detergent injection device and the rinse injection device.
In addition, the detergent is a material used to wash foreign substances remaining in the cup, and the rinse is a material used to rinse the detergent remaining in the cup after finishing the cup washing using the detergent.
Therefore, the detergent injection device and the rinse injection device need to be configured so that a path along which the detergent is injected into the washing unit and a path along which the rinse is injected into the washing unit are separated from each other.
In addition, in order to smoothly perform cleaning and rinsing, a structure in which the water introduced into the washing water is effectively mixed with the detergent or the rinse needs to be provided in the cup washer.
A purpose of the present disclosure is to provide a cup washer having a device for injecting a detergent into a washing unit and a device for injecting a rinse into the washing unit.
Another purpose of the present disclosure is to provide a cup washer having a detergent injection device and a rinse injection device which automatically operate without the user separately operating the detergent injection device and the rinse injection device.
Still another purpose of the present disclosure is to provide a cup washer having a detergent injection device and a rinse injection device in which a path through which detergent is injected to a tub and a path through which rinse is injected into the tub are separated from each other.
Still yet another purpose of the present disclosure is to provide a cup washer having a structure in which water introduced into washing water is effectively mixed with detergent or rinse.
Purposes according to the present disclosure are not limited to the above-mentioned purpose. Other purposes and advantages according to the present disclosure that are not mentioned may be understood based on following descriptions, and may be more clearly understood based on embodiments according to the present disclosure. Further, it will be easily understood that the purposes and advantages according to the present disclosure may be realized using means shown in the claims or combinations thereof.
An embodiment of the cup washer may include a washing unit for washing a cup accommodated therein. The washing unit may include: a detergent storage disposed on one side of the tub and storing detergent therein; a detergent injection part coupled to a bottom of the detergent storage; a detergent pump connected to the detergent injection part for pumping the detergent to the tub; a rinse storage separated from the detergent storage and disposed on one side of the tub for storing the rinse therein; a rinse injection part coupled to a bottom of the rinse storage; and a rinse pump connected to the rinse injection part for pumping the rinse to the tub.
Each of the detergent pump and the rinse pump may be connected to a controller provided in the cup washer and may operate at a time set by the controller to inject each of the detergent and the rinse to the tub so as to be mixed with water in the tub.
An embodiment of the cup washer may include: a first connection pipe connecting a washing water inlet and the water storage tank to each other; a second connection pipe connecting the rinse injection nozzle and the first connection pipe to each other; and a three-way fitting fitted with the first connection pipe and fitted with one end of the second connection pipe.
The rinse may be introduced into the tub through the second connection pipe, the three-way fitting, the first connection pipe, and the washing water inlet. On the other hand, the detergent may be introduced into the tub through a detergent inlet connected to a separate pipe.
The rinse discharged from the rinse injection nozzle may be introduced into the first connection pipe from the second connection pipe and may be mixed with water flowing through the first connection pipe and then the mixture may be introduced into the tub. Accordingly, the water and the rinse may meet each other in one pipe to form the mixture which in turn may flow into the tub through the detergent inlet.
The washing unit may include a rack. The rack may be provided inside the tub, and the cup may be seated on the rack. A plurality of wires may be coupled to each other to form the rack.
The rack may include a first flow path guide. The first flow path guide may be coupled to a bottom portion and oriented to face the washing water inlet, so that the water introduced from the washing water inlet may be directed toward the detergent flowing into the detergent inlet.
The first flow path guide may be disposed in a rear portion of an inner space of the tub and disposed at a position adjacent to the washing water inlet. Accordingly, the water introduced into the washing water inlet and poured into the tub may collide with the first flow path guide such that a flow direction of the water may be changed.
The washing unit of the cup washer according to an embodiment may include a tub having a cup receiving space defined therein, wherein washing water is sprayed into the tub; a detergent storage disposed on one side of the tub and configured to store therein detergent; a detergent injection part coupled to a bottom of the detergent storage; and a detergent pump connected to the detergent injection part and configured to pump the detergent to the tub.
The detergent pump may include: a first connector connected to the detergent injection part and configured to receive the detergent from the detergent injection part; and a detergent discharge part having one side connected to the first connector and configured to discharge the detergent into the tub.
The detergent discharge part may include: a detergent pumping part connected to the first connector and configured to receive the detergent from the first connector and pump the received detergent; and a detergent injection nozzle coupled to the detergent pumping part, and connected to the tub, and configured to inject the detergent into the tub.
The washing unit may further include: a rinse storage disposed on one side of the tub and spaced from the detergent storage and configured to store therein rinse; a rinse injection part coupled to a bottom of the rinse storage; and a rinse pump connected to the rinse injection part and configured to pump the rinse to the tub.
The rinse pump may include: a second connector connected to the rinse injection part and configured to receive the rinse from the rinse injection part; and a rinse discharge part having one side connected to the second connector and the other side connected to the tub, and configured to discharge the rinse into the tub.
The rinse discharge part may include: a rinse pumping part connected to the second connector and configured to receive the rinse from the second connector and pump the received rinse; and a rinse injection nozzle coupled to the rinse pumping part, and connected to the tub, and configured to inject the rinse into the tub.
The detergent injection part may further include: a first lower cover coupled to the bottom of the detergent storage; and a first connection portion protruding downwardly from the first lower cover, and coupled to the first connector, and having a first flow hole defined therein through which the detergent flows, wherein the first lower cover has an upper surface extending in a downwardly inclined manner as the upper surface extends toward the first flow hole.
The rinse injection part may further include: a second lower cover coupled to the bottom of the rinse storage; and a second connection portion protruding downwardly from the second lower cover, and coupled to the second connector, and having a second flow hole defined therein through which the rinse flows, wherein the second lower cover has an upper surface extending in a downwardly inclined manner as the upper surface extends toward the second flow hole.
The tub may include: a detergent inlet connected to the detergent injection nozzle through a pipe so as to receive the detergent from the detergent injection nozzle; and a washing water inlet disposed on top of the detergent inlet, wherein water flows into the tub through the washing water inlet.
The cup washer according to one embodiment may further include a water storage tank disposed under the washing unit and configured to store therein water; a first connection pipe connecting the washing water inlet and the water storage tank to each other; a second connection pipe connecting the rinse injection nozzle and the first connection pipe to each other; and a three-way fitting fitted with the first connection pipe, wherein one end of the second connection pipe is fitted with the three-way fitting.
The rinse discharged from the rinse injection nozzle flows from the second connection pipe into the first connection pipe and is mixed with water flowing through the first connection pipe, and then, a mixture of the rinse and the water is introduced into the tub.
The washing unit may further include: a drying module disposed on a side surface of the tub and configured to spray heated air into the tub; a sump disposed under the tub and configured to store therein water sprayed from the tub; a circulation pump disposed under the tub and configured to circulate water between the tub and the sump; and a water discharging pump disposed under the tub and configured to discharge water from the sump to an outside.
The detergent injection part may further include: a (1-1)-st cover coupling protrusion protruding from the first lower cover and coupled to the tub; a (1-2)-nd cover coupling protrusion protruding from the first lower cover and coupled to the first connector; and a (1-3)-rd cover coupling protrusion protruding from the first lower cover and having a first hook-receiving groove defined therein.
The first connector may include: a first fastening portion fastened to the (1-2)-nd cover coupling protrusion; and a first coupling hook inserted into the first hook-receiving groove so as to be coupled to the (1-3)-rd cover coupling protrusion.
The detergent pump may include a first body to which the first connector is coupled, wherein the first body may include a (1-1)-st module fastening portion formed to protrude in a lateral direction and fastened to the drying module, wherein the drying module may include a (1-2)-nd module fastening portion protruding toward the (1-1)-st module fastening portion, wherein the (1-1)-st module fastening portion is fastened to the (1-2)-nd module fastening portion.
The rinse injection part may further include: a (2-1)-st cover coupling protrusion protruding from the second lower cover and coupled to the tub; a (2-2)-nd cover coupling protrusion protruding from the second lower cover and coupled to the second connector; and a (2-3)-rd cover coupling protrusion protruding from the second lower cover and having a second hook-receiving groove defined therein.
The second connector may include: a second fastening portion fastened to the (2-2)-nd cover coupling protrusion; and a second coupling hook inserted into the second hook-receiving groove so as to be coupled to the (2-3)-rd cover coupling protrusion.
The rinse pump may include a second body to which the second connector is coupled, wherein the second body may include a (2-1)-st module fastening portion formed to protrude in a lateral direction and fastened to the drying module, wherein the drying module may include a (2-2)-nd module fastening portion protruding toward the (2-1)-st module fastening portion, wherein the (2-1)-st module fastening portion is fastened to the (2-2)-nd module fastening portion.
In the cup washer of the present disclosure, the detergent injection device and the rinse injection device may be disposed outside the tub to and may be separated from each other. The water introduced into the tub may be mixed with the detergent and the rinse via the detergent injection device and the rinse injection device, respectively.
Therefore, when the cup is washed by spraying water thereto, the washing water as a mixture of water and the detergent may be sprayed to the cup to increase the washing efficiency of the cup. In addition, when the cup is rinsed after washing the cup, the washing water as a mixture of water and the rinse may be sprayed onto the cup to effectively rinse the cup.
In addition, in the cup washer according to the present disclosure, each of the detergent pump and the rinse pump may be connected to the controller provided in the cup washer, and may operate at a time set by the controller to inject each of the detergent and the rinse to the tub so as to be mixed with water in the tub. The manager may periodically supplement the detergent and the rinse in the detergent storage and the rinse storage, respectively.
Therefore, the cup washer may automatically wash the cup using the detergent to increase the cleaning efficiency of the cup, without the user who intends to wash his or her cup performing a separate operation for adding the detergent to water, thereby improving the user convenience. Further, the cup washer may automatically rinse the cup using the rinse after the cup has been washed, without the user who intends to wash his or her cup performing a separate operation for adding the rinse to water, thereby improving the user convenience.
In addition, in the cup washer of the present disclosure, the rinse may be introduced into the tub through the second connection pipe, the three-way fitting, the first connection pipe, and the washing water inlet. On the other hand, the detergent may be introduced into the tub through the detergent inlet connected to a separate pipe. In addition, a time at which the detergent is introduced into the tub and a time at which the rinse is introduced into the tub may be different from each other.
Due to this structure, the path through which the detergent is injected into the tub and the path through which the rinse is injected into the tub are separated from each other so that the detergent and the rinse are not mixed with each other, thereby improving the efficiency of each of cleaning of the cup washer and rinsing of the cup washer.
In addition, in the cup washer according to the present disclosure, water and rinse may meet each other in one pipe and the mixture thereof may flow into the tub through the detergent inlet. Accordingly, the water and the rinse may be more uniformly mixed each other while the water and the rinse are flowing. This, the washing water in which the water and the rinse are uniformly mixed with each other may be sprayed to the cup, so that the rinsing operation of the cup may be effectively performed.
In addition, in the cup washer of the present disclosure, the rack may include the first flow path guide disposed at a position adjacent to the washing water inlet of the tub for guiding the flow direction of the water. Accordingly, the first flow path guide may guide the water introduced into the tub toward the detergent introduced into the tub. Therefore, the flowing water is mixed with the detergent, such that the water and the detergent may be smoothly mixed with each other, and thus, the washing efficiency of the cup washer may be improved.
Specific effects together with the above-described effects are described with a description of the following detailed matters for carrying out the disclosure.
The above-mentioned purposes, features, and advantages will be described in detail later with reference to the attached drawings, so that those skilled in the art in the technical field to which the present disclosure belongs may easily practice the technical ideas of the present disclosure. In describing the present disclosure, when it is determined that a detailed description of the publicly known technology related to the present disclosure may unnecessarily obscure the gist of the present disclosure, the detailed description thereof will be omitted. Hereinafter, a preferred embodiment according to the present disclosure will be described in detail with reference to the attached drawings. In the drawings, identical reference numerals are used to indicate identical or similar components.
Although first, second, etc. are used to describe various components, these components are not limited by these terms. These terms are merely used to distinguish one component from another component. Thus, unless specifically stated to the contrary, the first component may be the second component.
As used herein, unless otherwise stated, each component may be provided as one or more components.
As used herein, the singular constitutes “a” and “an” are intended to include the plural constitutes as well, unless the context clearly indicates otherwise. Further, the terms “comprise”, “comprising”, “include”, and “including” as used herein should not be construed as necessarily including all of various components or steps as described herein, and may be construed as excluding some components or some steps thereof. It will be further understood that the terms “comprise”, “comprising”, “include”, and “including” as used herein specify presence of a component or a step, but do not preclude the presence or addition of another component or step.
Throughout the present disclosure, “A and/or B” means A, B, or A and B, unless otherwise specified, and “C to D” means C inclusive to D inclusive unless otherwise specified.
Throughout the present disclosure, “vertical direction” refers to the vertical direction of the cup washer when the cup washer is installed for daily use. “Left and right direction” means the direction perpendicular to the vertical direction. The front-back direction means a direction perpendicular to both the vertical direction and the left-right direction. “Bilateral direction” or “lateral direction” has the same meaning as the left-right direction, and these terms may be used interchangeably with each other in the present disclosure.
The cup washer according to the embodiment may be provided, for example, in stores where beverages are provided. Users of the cup washer may be customers who buy and drink beverages. In order to protect an environment, provision of disposable cups to customers in service stores has recently been restricted, and a range of such a restriction is gradually expanding.
Therefore, a cup washer may be provided in a service store so that users who carry multi-use cups may use a cup after washing the cup in the service store. A cup to be washed may be a multi-use cup such as a tumbler carried by a user. Therefore, the cup washer may have a structure which may be conveniently by a user.
A washing unit 130 for accommodating therein and washing a cup may be provided in an upper portion of the cup washer. The washing unit 130 may be disposed on top of a water storage tank 120 and wash the accommodated cup, The washing unit 130 may be opened or closed by a door 150. At this time, the door 150 may be hinge-rotated in a vertical direction of the cup washer to open or close the washing unit 130. The door 150 may be coupled to a top cover 210 to be hinge-rotated.
With this structure, a user may conveniently wash a cup without bending down by operating the cup washer after manually opening the door 150 to put the cup on the washing unit 130 and re-closing the door 150.
A height of the washing unit 130 in the cup washer needs to be appropriately adjusted to fit an adult's body so that the user may use the cup washer without bending down. In addition, in order to increase space efficiency, the cup washer needs to have a relatively smaller volume.
For this reason, the cup washer may have a tower-like shape with a relatively smaller planar cross-sectional area and a relatively larger vertical length. Due to the tower-like shape, a relatively larger component in the cup washer needs to extend in a vertical direction.
In addition, the cup washer may have an increased risk of tipping over due to the tower-like shape provided to extend in the vertical direction. In order to suppress the tipping over of the cup washer, it is necessary to lower the overall center of gravity by positioning a relatively heavier component at a lower position of the cup washer.
Hereinafter, a structure of the cup washer will be described in more detail with reference to the drawings.
The cup washer according to one embodiment may include a base plate 110, a water storage tank 120, the washing unit 130, an intermediate plate 140, the door 150, and a frame 160.
The base plate 110 may be disposed at a lowermost portion of the cup washer to support other components of the cup washer. A lower portion of the base plate 110 may be disposed on the ground. The base plate 110 may include a first part 111 and a second part 112. The first part 111 may have a lower surface disposed on the ground and support the second part 112.
The second part 112 may be disposed on top of the first part 111, and the water storage tank 120 may be disposed on the second part 112. The frame 160 may be coupled to the second part 112. For example, front supports 161, rear supports 162, and intermediate supports 163 may be coupled to the second part 112. Therefore, the frame 160 may be supported by the second part 112.
The water storage tank 120 may be disposed on top of the base plate 110 to store water for washing the cup. The water storage tank 120 may be connected to the city water supply using a pipe. Therefore, water in the city water supply may flow into the water storage tank 120 and may be stored therein. In addition, the water storage tank 120 may be connected to the washing unit 130 using a pipe. Therefore, water in the water storage tank 120 may flow into the washing unit 130 and may be used to wash a cup accommodated in the washing unit 130.
A heating device may be provided inside the water storage tank 120. The water in the water storage tank 120 may be heated by the heating device and flow into the washing unit 130. This may increase washing efficiency for the cup by washing the cup using the heated water.
The water storage tank 120 may be fully filled with water. Therefore, the water storage tank 120 fully filled with water may have a relatively larger load than a load of each of other components. The water storage tank 120 may be disposed on the base plate 110 and disposed at the lower portion of the cup washer.
Due to the load of the water storage tank 120 fully filled with water, which is disposed on the lower portion of the cup washer, the overall center of gravity of the cup washer may be lowered. Therefore, the cup washer provided in a tower shape with a relatively larger length in the vertical direction may maintain a stable state without easily tipping over even in the event of an external impact.
The washing unit 130 may be disposed on top of the water storage tank 120 and wash the accommodated cup. A space for accommodating the cup may be formed in the washing unit 130. The washing unit 130 may be connected to the water storage tank 120 using a pipe. Therefore, water for washing may flow into the washing unit 130 from the water storage tank 120.
In another embodiment, the washing unit 130 may be directly connected to the city water supply bypassing the water storage tank 120. Therefore, depending on a user's selection, the cup may be washed using water introduced from the water storage tank 120 or the cup may be washed using water introduced directly from the city water supply.
The intermediate plate 140 may be disposed between the water storage tank 120 and the washing unit 130 to support the washing unit 130. The washing unit 130 may be disposed on top of the intermediate plate 140, and the intermediate plate 140 may support a portion of the load of the washing unit 130. The intermediate plate 140 may have substantially a plate-like shape and may be coupled to the frame 160 at an edge thereof to be supported by the frame 160.
The door 150 may be disposed on top of the washing unit 130 and may be hinge-rotated in the vertical direction to open and close an open upper portion of the washing unit 130. Referring to
The top cover 210 may be provided on an upper end of the washing unit 130. The top cover 210 may be disposed on top of the tub 131. A portion of the top cover 210 may be coupled to an edge portion of the upper end of the washing unit 130, and the door 150 may be disposed thereon.
An inlet cover 213 may be provided on the other portion of the top cover 210. The inlet cover 213 may open and dose inlets for detergent and rinse out into the washing unit 130 and may be detachably provided on the top cover 210.
A user may open or close the door 150 disposed on the upper end of the cup washer to put a cup into the washing unit 130 or take the cup out of the washing unit 130. At this time, since the door 150 is hinge-rotated in the vertical direction, the user may conveniently move the door 150 without bending down.
In addition, due to the hinge-rotation of the door 150, the door 150 may be provided so that an area of the cup washer is not changed in a state in which the door 150 is open. Therefore, since a planar cross-sectional area of the cup washer is constant regardless of whether the door 150 is opened or closed, no additional space is required to open the door 150.
In an embodiment, since the door may be provided to be hinge-rotated in the vertical direction of the cup washer at the upper end of the washing unit 130, the user may conveniently use the cup washer by opening or closing the door 150 without bending down. In addition, with this structure, no additional space for opening the door 150 is required, thereby increasing space efficiency.
The frame 160 may be supported by the base plate 110 and coupled to the intermediate plate 140 and support the washing unit 130. The frame 160 may provide an internal space of the cup washer and may be coupled to various components to support these components.
The frame 160 may include the front supports 161, the rear supports 162, the intermediate supports 163, and top supports 164. The components of the frame 160 may withstand loads of the washing unit 130, the door 150, and the like provided on the upper portion of the cup washer.
A pair of front supports 161 may be disposed to be spaced apart from each other on the front of the cup washer and have lower portions coupled to the base plate 110, and longitudinal directions thereof are disposed in the vertical direction. The pair of front supports 161 may be disposed at positions of the front of the cup washer, which are spaced apart from each other in a lateral direction of the cup washer and may form corner portions of the front of the cup washer.
The front supports 161 may be formed in an L-shaped cross section to form the corner portions of the cup washer. The front supports 161 may be coupled to the base plate 110 by fasteners such as screws.
A pair of rear supports 162 may be disposed to be spaced apart from each other on the rear of the cup washer and have lower portions coupled to the base plate 110, and longitudinal directions thereof are disposed in the vertical direction. The pair of rear supports 162 may be disposed at positions of the rear of the cup washer, which are spaced apart from each other in the lateral direction of the cup washer and disposed adjacent to corner portions of the rear of the cup washer. The rear supports 162 may be coupled to the base plate 110 by fasteners.
A pair of intermediate supports 163 may be disposed to be spaced apart from each other, may be disposed between the front supports 161 and the rear supports 162, and may have lower portions coupled to the base plate 110, and longitudinal directions thereof are disposed in the vertical direction. The pair of intermediate supports 163 may be disposed at positions of a central portion of the cup washer, which are spaced apart from each other in the lateral direction of the cup washer.
The intermediate supports 163 may be coupled to the base plate 110 by fasteners. In addition, the intermediate supports 163 may be coupled to the intermediate plates 140 and the upper supports 164 by the fasteners to stably maintain the positions and support the loads of the components of the cup washer.
The upper supports 164 may be disposed on top of the front supports 161 and the intermediate supports 163, and a pair of upper supports 164 may be disposed to be spaced apart from each other in the lateral direction, may have longitudinal directions disposed in a front-rear direction, and may be coupled to the washing unit 130. The pair of upper supports 164 may be disposed at positions of the upper portion of the cup washer, which are spaced apart from each other in the lateral direction of the cup washer.
The washing unit 130 may be coupled to the upper supports 164 by fasteners. Therefore, the upper supports 164 may support the load of the washing unit 130.
A plurality of upper supports 164 may be provided to be spaced apart from each other in the vertical direction of the cup washer. Therefore, in
Each of the upper supports 164 may be coupled to the front supports 161, the rear supports 162, and the intermediate supports 163. Therefore, the load of the washing unit 130 may be transmitted to the front supports 161, the rear supports 162, and the intermediate supports 163 through the upper supports 164 and finally transmitted to the base plate 110.
With this structure, the cup washer may stably support the washing unit 130 provided therein. The upper support 164 may be coupled to the front supports 161, the rear supports 162, and the intermediate supports 163 by fasteners such as a screw.
In an embodiment, components provided in the upper portion of the cup washer in addition to the washing unit 130 may be supported by the frame 160, and the components may be ultimately supported by the base plate 110. With this structure, the components may he stably supported by the frame 160 and the base plate 110 even in a state in which relatively heavier components such as the washing unit 130 are provided on the upper portion of the cup washer.
The cup washer may include a front panel 170 and a rear panel 180. The front panel 170 may be disposed on the front of the cup washer to cover the water storage tank 120, the tub 131, and the washing unit 130. The front panel 170 may be coupled to the rear support 162. of the frame 160 by a fastener.
The rear panel 180 may be coupled to the frame 160 to cover the rear of the cup washer. A first vent 181 for ventilating an inside and an outside of the cup washer may be provided on the rear panel 180. Air flowing into the drying module 132 to be described below may flow into the cup washer through the first vent 181.
A handle 260 for a user or a manager to hold the cup washer may be coupled to the rear panel 180 to facilitate the movement of the cup washer.
The cup washer may include a display unit 190 coupled to an upper portion of the rear support 162 and disposed at one side of the door 150. The display unit 190 may be disposed at one side of the upper portion of the cup washer, for example, at one side of the door 150 and provided to protrude from the door 150.
Therefore, the user may view the display unit 190 while being positioned in front of the cup washer. Various pieces of information on the use of the cup washer may be displayed on the display unit 190 in the form of images, texts, and videos.
The user may operate the cup washer or know an operating state of the cup washer by looking at the information displayed on the display unit 190. In addition, a command input device in which commands are inputted by, for example, a capacitive touch method may be provided on the display unit 190. Therefore, the user may control the operation of the cup washer using the display unit 190.
The cup washer may include a first circuit board 220 and a board support 230. The first circuit board 220 may be disposed at one side of the water storage tank 120, for example, behind the water storage tank 120, and may include a controller for controlling the operation of the cup washer. The first circuit board 220 may be disposed at the one side of the water storage tank 120 on the lower portion of the cup washer in which an extra space is formed due to the arrangement of the water storage tank 120 having a relatively smaller volume than the washing unit 130.
A lower portion of the board support 230 may be coupled to the base plate 110, an upper portion thereof may be coupled to the intermediate plate 140, and the first circuit board 220 may be coupled to the board support 230. The board support 230 may be stably coupled to the base plate 110 by a fastener.
The board support 230 may be used not only to fix the first circuit board 220, but also to fix a pipe disposed on the lower portion of the cup washer.
The cup washer may include an exterior part 250 coupled to the rear panel 180 to cover the rear support 162. A plurality of fasteners may be coupled to the rear support 162. for coupling with other components of the cup washer.
Therefore, a structure in which the rear support 162 to which the fastener is fastened is directly exposed to the outside may degrade a visual sense of beauty of the cup washer. Therefore, a structure of covering the rear support 162 to which the fastener is fastened is required.
The exterior part 250 may cover the rear support 162 and may be coupled to a relatively very fewer number of fasteners when compared to the rear support 162. With this structure, the exterior part 250 may be disposed outside the cup washer at a position corresponding to the rear support 162 to improve the simple look of the cup washer.
Hereinafter, a specific structure of the washing unit 130 will be described in detail with reference to the drawings.
The tub 131 may be disposed above the water storage tank 120 to provide a space in which a cup is accommodated, and washing water may be sprayed. A rack on which a cup is mounted may be provided inside the tub 131, and a spray device for spraying water may be provided on a lower portion of the tub 131. An open upper end of the tub 131 may be opened and closed by the door 150.
The drying module 132 may be disposed on one side of the tub 131 to be connected to the tub 131 and may spray heated air for drying to an inside of the tub 131. After the washing of the cup 10 with water is completed, water remains on surfaces of the cup. The drying module 132 may dry the cup by spraying the heated air, that is, hot air to the cup to dry the cup to remove any remaining water.
A heating device for heating air flowing into the drying module 132 may be provided in the drying module 132. In addition, a blowing fan 1321 for forcing air to flow through a flow path formed in the drying module 132 may be provided in the drying module 132.
The sump 133 may be disposed under the tub 131 to be connected to the tub 131 to store the water sprayed in the tub 131. The water stored in the sump 133 may be sprayed by the spray device from the tub 131 while circulating between the tub 131 and the sump 133 by the circulation pump 134 to wash the cup 10 accommodated in the tub 131.
The circulation pump 134 may be disposed under the tub 131 to be connected to the tub 131 and the sump 133 to circulate water between the tub 131 and the sump 133. The circulation pump 134 may force water to flow from the sump 133 to the tub 131.
The circulation pump 134 may be connected to the spray device disposed under the tub 131. Therefore, when the circulation pump 134 operates, the water stored in the sump 133 may flow into the spray device and may be sprayed into the tub 131 by the spray device to wash the cup.
The water discharging pump 135 may be disposed under the tub 131 to be connected to the sump 133 to discharge water from the sump 133 to the outside. When the washing of the cup with water is completed, the water discharging pump 135 may operate so that the water stored in the sump 133 may be discharged to the outside of the cup washer through a drainpipe connected to the water discharging pump 135.
A washing process of the cup 10 with the water stored in the water storage tank 120 is as follows. Water may flow into the water storage tank 120 from the city water supply through a pipe and may be stored therein. The water in the water storage tank 120 may be heated by the heating device provided in the water storage tank 120. Heated water in the water storage tank 120 may flow into the tub 131 through a pipe and may be stored in the sump 133 disposed under the tub 131.
When the circulation pump 134 operates to wash the cup, hot water may be sprayed from the sump 133 into the tub 131 through the spray device to wash the cup. The hot water sprayed into the tub 131 may re-flow into the sump 133, re-flow into the spray device by the circulation pump 134, and may be sprayed into the tub 131 by the spray device.
While the circulation pump 134 is operating, water for washing may sequentially flow through the sump 133, the spray device, and the tub 131, and this flow may be repeated. When the washing of the cup with water is completed, the circulation pump 134 may be stopped, and the water discharging pump 135 may be operated to discharge the water stored in the sump 133 to the outside.
When the drainage by the water discharging pump 135 is completed, the drying module 132 may be operated to blow hot air into the tub 131, and after the spraying of the hot air is performed for a set time, a cup washing operation including a drying process may be completed.
The cup washer may perform washing with detergent and then rinsing with rinse. Hereinafter, a structure provided to input the detergent and the rinse into the tub 131 will be described in detail.
In one example, in the cup washing process with hot water, the washing process using detergent and the rinsing process using rinse may be separated from each other. After a process of washing the cup by mixing detergent with hot water is completed, the water in the sump 133 contains detergent and foreign substances. Therefore, the contaminated water may be discharged to the outside by operating the water discharging pump 135.
After the contaminated water is discharged to the outside, the rinsing operation may be performed by allowing water to re-flow into the sump 133 and mixing the water with the rinse to operate the circulation pump 134. This may increase washing efficiency of the cup washer by separating the washing process using the detergent and the rinsing process using the rinse from each other.
The washing unit 130 may include a detergent storage 136, a rinse storage 137, a detergent injection part 138, a rinse injection part 139, a detergent pump 1301, and a rinse pump 1302.
The detergent storage 136 may be disposed in rear of the tub 131 so as to store the detergent therein. The rinse storage 137 may be disposed behind the tub 131 separately from the detergent storage 136 and may store the rinse therein. Therefore, the detergent and the rinse may not be mixed with each other.
A detergent inlet 211 into which detergent is input and a rinse inlet 212 into which rinse is input may be provided on the top cover 210. The detergent inlet 211 may be connected to the detergent storage 136, and the rinse inlet 212 may be connected to the rinse storage 137. Therefore, the detergent and the rinse introduced through the detergent inlet 211 and the rinse inlet 212 may be stored in the detergent storage 136 and the rinse storage 137.
The detergent injection part 138 may be connected to the detergent storage 136 and the tub 131 to inject the detergent into the tub 131. An inlet of the detergent injection part 138 may be connected to the detergent storage 136 and an outlet thereof may be connected to the tub 131.
The rinse injection part 139 may be connected to the rinse storage 137 and the tub 131 to inject the rinse into the tub 131. An inlet of the rinse injection part 139 may be connected to the rinse storage 137 and an outlet thereof may be connected to the tub 131.
The detergent pump 1301 may be connected to the detergent injection part 138 to pump the detergent to the tub 131. The rinse pump 1302. may be connected to the rinse injection part 139 to pump the rinse to the tub 131. Operations of the detergent pump 1301 and the rinse pump 1302 may be controlled by the controller.
The controller may operate the detergent pump 1301 to mix the detergent with water in the washing process and operate the rinse pump 1302 to mix the rinse with water in the rinsing process.
The water storage tank 120 may be connected to the tub 131 using a pipe and provided so that the water in the water storage tank 120 flows into the tub 131. Therefore, the water in the water storage tank 120 may flow into the tub 131 after being heated to become hot water and may be stored in the sump 133 until the circulation pump 134 operates.
As described above, the tub 131 may also have a water supply path directly connected to the city water supply. Therefore, normal washing or rapid washing may be performed on the cup by the user's selection.
In normal washing, the cup may be washed using the hot water heated in the water storage tank 120, and the cup may be cleanly washed using detergent and rinse, but it may take a relatively longer time.
In rapid washing, since the cup may be washed using cold tap water supplied from the city water supply, does not use detergent or rinse, and thus the washing time is relatively shorter, a user who intends to quickly wash a cup that is relatively less contaminated may conveniently use the cup washer.
The washing unit 130 may include the detergent injection device for injecting detergent into the tub 131 and the rinse injection device for injecting rinse into the tub 131. The cup may be washed by the detergent mixed with water and sprayed to the cup. The cup may be rinsed after the cup is washed by the rinse mixed with water and sprayed to the cup.
Therefore, the rinse may be used to rinse the cup after the detergent is used to wash the cup. That is, the detergent and the rinse may be mixed with the water sprayed to the tub 131 with a time difference. The detergent and the rinse may be provided in a liquid state and pumped by the detergent pump 1301 and the rinse pump 1302 to flow into the tub 131. The detergent injection device and the rinse injection device may be disposed outside the tub 131.
The detergent injection device may include the detergent storage 136, the detergent injection part 138, and the detergent pump 1301. The detergent storage 136 may be disposed on one side of the tub 131 so as to store therein detergent. A manager may periodically pour detergent into the detergent storage 136 to store the detergent in the detergent storage 136.
The detergent injection part 138 may be coupled to a bottom of the detergent storage 136 to inject the detergent in the detergent storage 136 into the detergent pump 1301. Since the detergent injection part 138 is disposed under the detergent storage 136, detergent may be collected in the detergent injection part 138 by gravity and injected into the detergent pump 1301.
The detergent pump 1301 may be connected to the detergent injection part 138 to pump the detergent to the tub 131. The operation of the detergent pump 1301 may be controlled by the controller provided in the cup washer. The detergent pump 1301 may operate at a set time point to pump the detergent introduced from the detergent injection part 138 to the tub 131.
The detergent pump 1301 may include a first body 611, a first connector 612, and a detergent discharge part 613. The first body 611 may include a motor for providing a pumping force for discharging detergent, a gear device connecting the motor to discharging devices of the detergent discharge part 613, and the like therein.
The first connector 612 may be coupled to the first body 611 and connected to the detergent injection part 138 so that detergent may be introduced from the detergent injection part 138. The first connector 612 may connect the detergent injection part 138 to the detergent discharge part 613.
One side of the detergent discharge part 613 may be connected to the first connector 612 and the other side thereof may be connected to the tub 131 to discharge detergent into the tub 131. A pipe may be connected to the other side of the detergent discharge part 613 so that the detergent discharged from the detergent discharge part 613 may be injected into the tub 131 through the pipe.
The detergent discharge part 613 may include the detergent pumping part 6131 and a detergent injection nozzle 6132, The detergent pumping part 6131 may be connected to the first connector 612. to pump the detergent introduced from the first connector 612. The detergent pumping part 6131 may be driven by receiving a driving force from a motor provided in a body to generate a pumping force and pump the detergent flowing into the first connector 612 to the tub 131.
The detergent injection nozzle 6132 may be coupled to the detergent pumping part 6131 and connected to the tub 131. For example, a pipe connected to the tub 131 may be mounted on one end portion of the detergent injection nozzle 6132. The detergent injection nozzle 6132 may inject detergent into the tub 131. The detergent injection nozzle 6132 may be formed to have a smaller inner diameter than the detergent pumping part 6131 has and connected to the pipe.
The rinse injection device may include the rinse storage 137, the rinse injection part 139, and the rinse pump 1302. Referring to
The rinse storage 137 may be disposed on the one side of the tub 131 separately from the detergent storage 136 to store rinse. The manager may periodically pour rinse into the rinse storage 137 to store the rinse in the rinse storage 137.
The rinse injection part 139 may be coupled to a bottom of the rinse storage 137 to inject the rinse in the rinse storage 137 into the rinse pump 1302. Since the rinse injection part 139 is disposed on the lower portion of the rinse storage 137, rinse may be collected in the rinse injection part 139 by gravity and injected into the rinse pump 1302.
The rinse pump 1302 may be connected to the rinse injection part 139 to pump the rinse to the tub 131. The operation of the rinse pump 1302 may be controlled by the controller provided in the cup washer. The rinse pump 1302. may operate at a set time point to pump the rinse introduced from the rinse injection part 139 to the tub 131.
The rinse pump 1302 may include a second body 621, a second connector 622, and a rinse discharge part 623. The second body 621 may include a motor for providing a pumping force for discharging rinse, a gear device connecting the motor to discharging devices of the rinse discharge part 623, and the like therein.
The second connector 622 may be coupled to the second body 621 and connected to the rinse injection part 139 so that rinse may be introduced from the rinse injection part 139. The second connector 622 may connect the rinse injection part 139 to the rinse discharge part 623.
One side of the rinse discharge part 623 may be connected to the second connector 622 and the other side thereof may be connected to the tub 131 to discharge rinse into the tub 131. A pipe may be connected to the other side of the rinse discharge part 623 so that the rinse discharged from the rinse discharge part 623 may be injected into the tub 131 through the pipe.
The rinse discharge part 623 may include a rinse pumping part 6231 and a rinse injection nozzle 6232. The rinse pumping part 6231 may be connected to the second connector 622 to pump the rinse introduced from the second connector 622. The rinse pumping part 6231 may be driven by receiving a driving force from a motor provided in a body to generate a pumping force and pump the rinse flowing into the second connector 622 to the tub 131.
The rinse injection nozzle 6232 may be coupled to the rinse pumping part 6231 and connected to the tub 131. For example, a pipe connected to the tub 131 may be mounted on one end portion of the rinse injection nozzle 6232. The rinse injection nozzle 6232 may inject rinse into the tub 131. The rinse injection nozzle 6232 may be formed to have a smaller inner diameter than the rinse pumping part 6231 has and connected to the pipe.
In an embodiment, the detergent injection device and the rinse injection device may be separately disposed outside the tub 131 in the washing unit 130. Water flowing into the tub 131 may be mixed with detergent or rinse by the detergent injection device or the rinse injection device.
Therefore, when the cup is washed by spraying water, the washing water in which water and detergent are mixed may be sprayed to the cup, thereby increasing the washing efficiency for the cup. In addition, when the cup is rinsed after being washed, the washing water in which water and rinse are mixed may be sprayed to the cup to effectively rinse the cup.
In an embodiment, each of the detergent pump 1301 and the rinse pump 1302 may be connected to the controller provided in the cup washer and may operate at a time set by the controller to inject each of the detergent and the rinse into the tub 131 so as to be mixed with water in the tub 131. A manager may periodically replenish the detergent and the rinse in the detergent storage 136 and the rinse storage 137, respectively.
Therefore, a user who intends to wash his/her cup may conveniently use detergent, thereby increasing the washing efficiency for the cup, and cleanly rinse the cup using rinse after washing the cup without having to perform a separate operation for adding detergent and rinse to water.
The detergent injection part 138 may include a first lower cover 1381 and a first connection portion 1382. The first lower cover 1381 may be coupled to the lower portion of the detergent storage 136 to cover an open lower surface of the detergent storage 136. Since the first lower cover 1381 covers a lower surface of the detergent storage 136, liquid detergent stored in the detergent storage 136 may be moved down by gravity and disposed on an upper surface of the first lower cover 1381.
The first connection portion 1382 may protrude downwardly from the first lower cover 1381, may be coupled to the first connector 612, and may have a first flow hole 1382a through which detergent flows formed therein. The detergent disposed on the upper surface of the first lower cover 1381 may flow into the first connector 612 through the first flow hole 1382a provided in the first connection portion 1382.
The upper surface of the first lower cover 1381 may be formed to be inclined to have a reduced height toward the first flow hole 1382a. Therefore, the liquid detergent disposed on the upper surface of the first lower cover 1381 may be collected to an inlet of the first flow hole 1382a disposed at the lowest position of the inclined upper surface of the first lower cover 1381 after flowing along the upper surface of the first lower cover 1381 by gravity.
The detergent collected to the inlet of the first flow hole 1382a may move down through the first flow hole 1382a to pass through the first connector 612 and flow into the detergent discharge part 613 and may be pumped by the detergent pumping part 6131 to flow into the tub 131 through the detergent injection nozzle 6132 and the pipe.
The rinse injection part 139 may include a second lower cover 1391 and a second connection portion 1392. The second lower cover 1391 may be coupled to the lower portion of the rinse storage 137 to cover an open lower surface of the rinse storage 137. Since the second lower cover 1391 covers the lower surface of the detergent storage 137, liquid rinse stored in the rinse storage 137 may be moved down by gravity and disposed on an upper surface of the second lower cover 1391.
The second connection portion 1392 may protrude downwardly from the second lower cover 1391, may be coupled to the second connector 622, and may have a second flow hole 1392a through which rinse flows formed therein. The rinse disposed on the upper surface of the second lower cover 1391 may flow into the second connector 622 through the second flow hole 1392a provided in the second connection portion 1392.
The upper surface of the second lower cover 1391 may be formed to be inclined to have a reduced height toward the second flow hole 1392a. Therefore, the liquid rinse disposed on the upper surface of the second lower cover 1391 may be collected to an inlet of the second flow hole 1392a disposed at the lowest position of the inclined upper surface of the second lower cover 1391 after flowing along the upper surface of the second lower cover 1391 by gravity.
The rinse collected to the inlet of the second flow hole 1392a may flow down through the second flow hole 1392a to pass through the second connector 622 and flow into the rinse discharge part 623 and may be pumped by the rinse pumping part 6231 to flow into the tub 131 through the rinse injection nozzle 6232 and the pipe.
In one example, as illustrated in
The washing water inlet 1315 may be disposed above the detergent inlet 1312, and water may flow into the tub 131. The washing water inlet 1315 may be connected to the water storage tank 120 with a pipe, and hot water from the water storage tank 120 may flow into the tub 131 through the washing water inlet 1315.
In addition, the rinse may flow into the tub 131 through the washing water inlet 1315. This will be described in detail below.
The cup washer may include the water storage tank 120, a first connecting pipe 631, a second connecting pipe 632, and a three-way fitting 633. The water storage tank 120 may be disposed under the washing unit 130 to store water for washing the cup.
The first connecting pipe 631 may connect the washing water inlet 1315 to the water storage tank 120. Water in the water storage tank 120 may be heated by a heating device to flow into the tub 131 through the first connecting pipe 631 and the washing water inlet 1315.
The second connecting pipe 632 may connect the rinse injection nozzle 6232 to the first connecting pipe 631. The three-way fitting 633 may be mounted on the first connecting pipe 631, and one end of the second connecting pipe 632 may be mounted thereon. Therefore, the rinse discharged from the rinse injection nozzle 6232 may be mixed with the water flowing through the first connecting pipe 631 at the three-way fitting 633, and the water mixed with rinse may flow into the tub 131 through the washing water inlet 1315.
With this structure, the rinse discharged from the rinse injection nozzle 6232 may flow into the first connecting pipe 631 from the second connecting pipe 632 and may be mixed with the water flowing through the first connecting pipe 631 to flow into the tub 131.
When the rinsing operation is performed, first, water mixed with filth and detergent stored in the sump 133 may be drained to the outside of the cup washer using the water discharging pump 135. Thereafter, hot water from the water storage tank 120 may re-flow into the tub 131 through the washing water intel. 1315 and may be stored in the sump 133 under the tub 131.
The cap may be rinsed by spraying water to the cup accommodated in the tub 131 while circulating the water stored in the sump 133 between the tub 131 and the sump 133 using the circulation pump 134. When this rinsing operation is performed, the rinse may be mixed with water.
When water flows into the tub 131 from the water storage tank 120 and is filled in the sump 133 for the rinsing operation, the rinse may be simultaneously pumped at a time point at which the water flows through the first connecting pipe 631. At this time, the second connecting pipe 632 through which the rinse flows may be connected to the first connecting pipe 631 through the three-way fitting 633, and thus the rinse may be mixed with water to flow into the tub 131.
In the three-way fitting 633, water and rinse are mixed to flow together, and when the water and the rinse continuously flow and are stored in the sump 133, the water and the rinse are further mixed so that the water and the rinse may become a state of being uniformly mixed in the sump 133.
In one example, the rinse may be used for the rinsing operation of washing off the detergent remaining on the surfaces of the cup after the washing operation using detergent is completed. Therefore, the detergent and the rinse need to be separated without being mixed with each other in the entire process of washing the cup.
Therefore, the detergent inlet 1312 separated from the washing water inlet 1315 may be formed in the tub 131, and the detergent injection nozzle 6132 and the detergent inlet 1312 may be connected to a separate pipe different from the first connecting pipe 631 or the second connecting pipe 632.
In an embodiment, the rinse may flow into the tub 131 through the second connecting pipe 632, the three-way fitting 633, the first connecting pipe 631, and the washing water inlet 1315. On the other hand, detergent may be introduced into the tub 131 through the detergent inlet 1312 connected to the detergent injection nozzle 6132 through the separate pipe. In addition, a time point at which the detergent flows into the tub 131 and a time point at which the rinse flows into the tub 131 may be different from each other.
With this structure, paths through which the detergent and the rinse are injected into the tub 131 may be separated so that the detergent and the rinse are not mixed with each other, thereby increasing the efficiency of the washing operation and the rinsing operation of the cup washer.
In an embodiment, water and rinse may meet and flow in one pipe to flow into the tub 131 through the washing water inlet 1315. Therefore, the water and the rinse may be more uniformly mixed while flowing, and the washing water in which the water and the rinse are uniformly mixed may be sprayed to the cup, and thus the rinsing operation of the cup may be effectively performed.
As described above, the cup washer may include the drying module 132, the sump 133, the circulation pump 134, and the water discharging pump 135. The drying module 132 may be disposed on a side surface portion of the tub 131 to be connected to the tub 131 to blow heated air into the tub 131. After the above-described washing operation and rinsing operation are performed, the drying module 132. may be operated to dry the cup with the water remaining on the surfaces of the cup accommodated in the tub 131.
The sump 133 may be disposed under the tub 131 to be connected to the tub 131 to store the water sprayed from the tub 131. The circulation pump 134 may be disposed under the tub 131 to be connected to the tub 131 and the sump 133 to circulate water between the tub 131 and the sump 133. The cup accommodated in the tub 131 may be washed or rinsed by operating the circulation pump 134 to circulate and spray water to the tub 131.
The water discharging pump 135 may be disposed under the tub 131 to be connected to the sump 133 to discharge water from the sump 133 to the outside. After completing the washing operation or the rinsing operation, the water stored in the sump 133 may be discharged to the outside of the cup washer through the water discharging pump 135.
As illustrated in
The (1-2)-nd cover coupling protrusion 1384 may protrude from the first lower cover 1381 and may be coupled to the first connector 612. The (1-3)-rd cover coupling protrusion 1385 may protrude from the first lower cover 1381, and a first hook-receiving groove 1385a may be formed in the (1-3)-rd cover coupling protrusion 1385.
Correspondingly, the first connector 612 may include a first fastening portion 6121 and a first coupling hook 6122. The first fastening portion 6121 may be formed to protrude laterally from the first connector 612 to be fastened to the (1-2)-nd cover coupling protrusion 1384.
The (1-2)-nd cover coupling protrusion 1384 may include a first large-diameter portion 1384a having a relatively larger outer diameter, and a first small-diameter portion 1384b protruding from the first large-diameter portion 1384a and having a relatively smaller outer diameter. A hole into which a fastener is fastened may be formed in each of the first large-diameter portion 1384a and the first small-diameter portion 1384b.
A hole may be formed in the first fastening portion 6121 of the first connector 612, and the first small-diameter portion 1384b of the (1-2)-nd cover coupling protrusion 1384 may be inserted into the hole of the first fastening portion 6121. In a state in which the first small-diameter portion 1384b is inserted into the first fastening portion 6121, the (1-2)-nd cover coupling protrusion 1384 and the first fastening portion 6121 may be coupled by a fastener.
The first coupling hook 6122 may be inserted into the first hook-receiving groove 1385a and coupled to the (1-3)-rd cover coupling protrusion 1385. The first hook-receiving groove 1385a may be formed to have a predetermined length in a vertical direction of the detergent injection part 138. The first coupling hook 6122 may be inserted into the first hook-receiving groove 1385a by moving in a longitudinal direction of the first hook-receiving groove 1385a, that is, the vertical direction of the detergent injection part 138.
The first coupling hook 6122 may be formed not to be easily separated from the first hook-receiving groove 1385a when moving down in a state of being inserted into the first hook-receiving groove 1385a. Therefore, the (1-3)-rd cover coupling protrusion 1385 may stably maintain a state of being coupled to the first connector 612 without a fastener.
As illustrated in
The (1-1)-st module fastening portion 6111 may be formed to protrude in a lateral direction of the first body 611 and fastened to the drying module 132. Correspondingly, the (1-2)-nd module fastening portion 132a may protrude from the drying module 132 toward the (1-1)-st module fastening portion 6111, and the (1-1)-st module fastening portion 6111 may be fastened thereto. The (1-2)-nd module fastening portion 132a and the (1-1)-st module fastening portion 6111 may be coupled by a fastener.
Therefore, a portion of the detergent injection device may be coupled to the tub 131 and the other portion thereof may be coupled to the drying module 132. With this structure, the drying module 132 may be disposed between the tub 131 and the detergent injection device, and at least portions of the drying module 132 and the detergent injection device may be disposed to overlap each other.
Therefore, a space in which the drying module 132 and the detergent injection device are disposed may be reduced to increase the space efficiency of the cup washer. In addition, the detergent injection device is coupled to both the drying module 132 and the tub 131 to firmly couple the drying module 132 to the tub 131.
As illustrated in
The (2-2)-nd cover coupling protrusion 1394 may protrude from the second lower cover 1391 and may be coupled to the second connector 622. The (2-3)-rd cover coupling protrusion 1395 may protrude from the second lower cover 1391, and a second hook-receiving groove 1395a may be formed in the (2-3)-rd cover coupling protrusion 1395.
Correspondingly, the second connector 622 may include a second fastening portion 6221 and a second coupling hook 6222. The second fastening portion 6221 may be formed to protrude laterally from the second connector 622 to be fastened to the (2-2)-nd cover coupling protrusion 1394.
The (2-2)-nd cover coupling protrusion 1394 may include a second large-diameter portion 1394a having a relatively larger outer diameter, and a second small-diameter portion 1394b protruding from the second large-diameter portion 1394a and having a relatively smaller outer diameter. A hole into which a fastener is fastened may be formed in each of the second large-diameter portion 1394a and the second small-diameter portion 1394b.
A hole may be formed in the second fastening portion 6221 of the second connector 622, and the second small-diameter portion 1394b of the (2-2)-nd cover coupling protrusion 1394 may be inserted into the hole of the second fastening portion 6221. In a state in which the second small-diameter portion 1394b is inserted into the second fastening portion 6221, the (2-2)-nd cover coupling protrusion 1394 and the second fastening portion 6221 may be coupled by a fastener.
The second coupling hook 6222 may be inserted into the second hook-receiving groove 1395a and coupled to the (2-3)-rd cover coupling protrusion 1395. The second hook-receiving groove 1395a may be formed to have a predetermined length in a vertical direction of the rinse injection part 139. The second coupling hook 6222 may move in a longitudinal direction of the second hook-receiving groove 1395a, that is, the vertical direction of the rinse injection part 139 and may be inserted into the second hook-receiving groove 1395a.
The second coupling hook 6222 may be formed not to be easily separated from the second hook-receiving groove 1395a when moving down in a state of being inserted into the second hook-receiving groove 1395a. Therefore, the (2-3)-rd cover coupling protrusion 1395 may stably maintain a state of being coupled to the second connector 622 without a fastener.
As illustrated in
The (2-1)-st module fastening portion 6211 may be formed to protrude in a lateral direction of the second body 621 and fastened to the drying module 132. Correspondingly, the (2-2)-nd module fastening portion 132b may protrude from the drying module 132 toward the (2-1)-st module fastening portion 6211, and the (2-1)-st module fastening portion 6211 may be fastened thereto. The (2-2)-nd module fastening portion 132b and the (2-1)-st module fastening portion 6211 may be coupled by a fastener.
Therefore, a portion of the rinse injection device may be coupled to the tub 131 and the other portion thereof may be coupled to the drying module 132. With this structure, the drying module 132 may be disposed between the tub 131 and the rinse injection device, and at least portions of the drying module 132 and the rinse injection device may be disposed to overlap each other.
Therefore, a space in which the drying module 132 and the rinse injection device are disposed may be reduced to increase the space efficiency of the cup washer. In addition, the rinse injection device is coupled to both the drying module 132 and the tub 131 so as to firmly couple the drying module 132 to the tub 131.
Since the flow of water is not somewhat active in a state of being stored in the sump 133, the water may not be well mixed with the detergent when the water and the detergent are mixed in the sump 133.
Therefore, in order to increase mixing efficiency, it is necessary to mix water with detergent around each inlet through which the water and the detergent flow into the tub 131. Since the water actively flows particularly at the inlet of the tub 131, the detergent may be easily mixed with the water when the water and the detergent are mixed with each other around each inlet of the tub 131. This structure will be described below.
The tub 131 may include the washing water inlet 1315 and the detergent inlet 1312. The washing water inlet 1315 and the detergent inlet 1312 may be formed on the rear of the tub 131. The detergent inlet 1312 may be formed to pass through the one side of the tub 131 and may become a passage through which detergent flows into the tub 131. The washing water inlet 1315 may be disposed above the detergent inlet 1312 and may become a passage through which water flows into the tub 131.
The washing unit 130 may include the rack 400. The rack 400 may be provided inside the tub 131, the cup may be seated on the rack 400, and the rack 400 may be formed by coupling a plurality of wires. For example, a cup, a cup lid, a straw, or the like may be mounted on the rack 400.
In this case, the cup may be mounted upside down on the rack 400. That is, an open inlet of the cup may be disposed on the lower portion of the rack 400, and the bottom of the cup may be disposed on the upper portion of the rack 400. Therefore, water sprayed upward from a lower side of the rack 400 may smoothly flow into the cup to wash the inside of the cup.
The rack 400 may be formed in a three-dimensional mesh structure by entirely coupling wires. With this shape, a cup or the like may be easily mounted on the rack 400, and the sprayed water may easily wash the cup or the like mounted on the rack 400 with passing through the lower portion of the rack 400.
The rack 400 may include the bottom portion 410. The bottom portion 410 may be seated on the bottom of the tub 131 and support the cup seated on the rack 400 from a lower side. In order to stably support the cup or the like, the bottom portion 410 may be provided in a shape that is widely spread in front-rear and left-right directions in the lateral direction of the tub 131.
The bottom portion 410 may include an edge portion 411, a first inclined portion 412, and a first bent portion 413. The edge portion 411 may form edges of the bottom portion 410, and portions at both sides thereof may be formed to protrude upward from the tub 131.
The first inclined portion 412 may extend in a longitudinal direction inclined with respect to the lateral direction of the tub 131. A plurality of first inclined portions 412 may be provided to be disposed at positions spaced apart from each other. Therefore, the plurality of first inclined portions 412 may form a bottom surface of the rack 400 on which the cup or the like is mounted.
Since each of the plurality of first inclined portions 412 has an inclination, the cup disposed on the first inclined portions 412 may be mounted on the rack 400 entirely, obliquely with respect to the vertical direction of the tub 131.
The first bent portion 413 may be bent from the first inclined portion 412 and coupled to the edge portion 411. The first bent portion 413 may be formed on one end portion of the first inclined portion 412 in order for the first inclined portion 412 to become a structure having an inclination.
A plurality of first bent portions 413 may be provided, in which the first bent portions 413 may be disposed to be spaced apart from each other, and each of the first bent portions 413 may extend from each of the first inclined portions 412.
The rack 400 may include a first flow path guide 440. The first flow path guide 440 may be coupled to the bottom portion 410 and disposed to face the washing water inlet 1315 so that the water flowing from the washing water inlet 1315 flows toward the detergent flowing into the detergent inlet 1312.
The first flow path guide 440 may be disposed on the rear of the tub 131 and disposed at a position adjacent to the washing water inlet 1315. Therefore, the water flowing into the washing water inlet 1315 and pouring into the tub 131 may collide with the first flow path guide 440, and thus the flow path of the water may be changed.
The first flow path guide 440 may include a base portion 441 and a first pad 442. The base portion 441 may be coupled to the bottom portion 410. The base portion 441 may be formed to protrude from a rear of the bottom portion 410 and formed by entirely bending a wire.
The first pad 442 may be coupled to the base portion 441 and disposed at a position corresponding to the washing water inlet 1315 to change a flow direction of the water flowing into the tub 131. The first pad 442 may be formed in a curved shape when viewed in cross section to guide water to flow downward of the tub 131.
The first pad 442 may be disposed to directly face the washing water inlet 1315, Therefore, since the water flowing into the washing water inlet 1315 is sprayed toward the first pad 442 and may collide with the first pad 442, the flow direction of the water may be changed downward of the tub 131.
The first pad 442 may be formed to have a curved cross section, and the first pad 442 may have a curved surface so that a lower end portion faces the washing water inlet 1315. Therefore, the water colliding with the first pad 442 may approach the wall surface of the tub 131 while flowing downward by gravity.
In one example, the detergent inlet 1312 may be disposed under the washing water inlet 1315. Since the detergent introduced through the detergent inlet 1312 has a relatively higher viscosity, the detergent may flow down along the wall surface of the tub 131.
Since the water colliding with the first pad 442 approaches the wall surface of the tub 131 while flowing downward, the water may meet the detergent flowing down the wall surface of the tub 131. Therefore, the water flowing inside the tub 131 may meet the detergent.
With this structure, since water flowing at a position before flowing into the sump 133 meets the liquid detergent, the water may be easily mixed with the detergent compared to a case in which the detergent is mixed with the water collected in the sump 133,
During the washing process, the controller provided in the cup washer may control the operation of the detergent pump 1301 so that the detergent flows into the tub 131 at a time point at which the water flows into the tub 131 through the washing water inlet 1315. Therefore, since the flowing water and the detergent are mixed with each other, the water may be easily mixed with the detergent.
In an embodiment, the rack 400 may include the first flow path guide 440 for guiding the flow direction of water at a position adjacent to the washing water inlet 1315 of the tub 131. Therefore, the water flowing into the tub 131 may flow toward the detergent flowing into the tub 131 by the first flow path guide 440. Therefore, the flowing water is mixed with the detergent, such that the water is easily mixed with the detergent, thereby increasing the washing efficiency of the cup washer.
Although the present disclosure has been described above with reference to the example drawings, the present disclosure is not limited by the embodiments and drawings disclosed herein, and it is apparent that various modifications can be made by those skilled in the art within the scope of the technical spirit of the present disclosure. In addition, even when the operational effects according to the configuration of the present disclosure have not been explicitly described in the description of the embodiments of the present disclosure, it may be obvious that the effects predictable by the corresponding configuration should be recognized.
Number | Date | Country | Kind |
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10-2022-0121431 | Sep 2022 | KR | national |
10-2023-0074419 | Jun 2023 | KR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/KR2023/013989 | 9/15/2023 | WO |