RU2392549C1 - Device to produce ice in refrigerator - Google Patents

Abstract

FIELD: heating. ^ SUBSTANCE: this invention relates to device intended for preparing ice in refrigerator. Proposed device comprises ice generator arranged on refrigerator door rear panel. Ice generator cover is arranged on door rear side to selectively open or close ice generator. Cover fastening recesses are open downward on outer sidewalls of ice generator cover. Note here that said recesses can accommodate fastening ledges of thrust recesses of door rear side. Ice accumulator is arranged on door rear, below ice generator, to store ice produced by ice generator. Ice accumulator incorporates appliance to output ice, transfer ice into dispensing device arranged on the door and appliance to crush ice. ^ EFFECT: higher capacity, production of cold air portion for ice generator, prevention of penetration of foodstuffs smell into ice. ^ 19 cl, 8 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a refrigerator, and more particularly, to a device for making ice in a refrigerator, which is mounted on the rear side of the door.

State of the art

Figure 1 shows the main part of the refrigerator, equipped with a conventional device for making ice.

As shown in the drawing, the inner shell 12 is connected to the inner surface of the outer shell 11, which determines the appearance of the main body 10. The inner shell 12 forms the inner space of the main body 10, and the freezer 13, which is a storage tank, is formed essentially inner shell 12.

A door 15 is mounted on one side of the main body 10 for selectively opening or closing the freezer 13. The door 15 is mounted on the main body 10 with the possibility of rotation on one end thereof so that its other end moves in the horizontal direction. The door 15 includes an outer door 16 and an inner lining 17 of the door. The outer door 16 determines the appearance of the front of the door 15. In addition, the inner lining 17 of the door determines the appearance of the rear side of the door 15.

The casing 19 is made inside the freezer 13. The casing 19 is located at a certain distance from the rear side of the freezer 13. In addition, the casing 19 is made with many holes 19a for the release of cold air through which cold air is discharged into the freezer 13.

In addition, a heat exchange chamber 21 is formed between the rear side of the freezer 13 and the rear side of the casing 19. The lower part of the heat exchange chamber 21 is provided with an evaporator (not shown) to generate cold air. The upper part of the heat exchange chamber 21 is equipped with a blower fan 23 for injecting cold air into the freezer 13, which is involved in heat exchange in the evaporator.

The ice maker 25 is located in the upper part of the back side of the freezer 13 in line with the front side of the blower fan 23. The ice maker 25 is installed laterally in the upper part of the freezer 13 next to the casing 19. The ice maker 25 is used to make ice and move it to the drive 31 ice, which is described below.

The motor housing 29 is mounted on one side of the freezer 13 below the ice maker 25. The feed motor 27 described below for driving the feed lever 31 is mounted in the motor housing 29.

Ice storage 31 is located in the freezer 13 in line with the front surface of the motor housing 29. An ice store 31 is used to transfer ice received from the ice maker 25 to a dispenser (not shown), and to enable the user to retrieve the ice from the outside. To this end, the feed lever 31 a, driven by the feed motor 27, is provided in the ice storage 31. One end of the feed lever 31a is connected to a drive shaft of the feed motor 27.

However, a conventional refrigerator configured with this configuration has a number of problems listed below.

As described above, the prior art ice maker 25 is mounted on the rear side of the freezer 13 extending laterally. In addition, to move the ice prepared in the ice maker 25b into the dispenser, the motor housing 29 and the ice storage 31 are located in the freezer 13 accordingly. As a result, such a disadvantage appears that the capacity of the freezer 13 depends on the size of the ice maker 25, the motor housing 29 and the ice storage 31.

In addition, since the ice maker 25 is installed in the freezer 13, ice is prepared in the ice maker 25 by cold air circulating in the freezer 13. Therefore, during the preparation of ice in the ice maker 25, the smell of other foodstuffs stored in the freezer 13 can penetrate into the ice.

Disclosure of invention

Technical problem

The present invention is intended to solve the above problems of the prior art. The aim of the present invention is to provide a device for making ice in the refrigerator, which is configured to prevent a decrease in the capacity of the refrigerator.

Another objective of the present invention is to provide a device for making ice in the refrigerator, which is configured to minimize the penetration into the ice of the smell of another food product stored in the refrigerator.

Technical solution

In accordance with one aspect of the present invention, to achieve such goals, there is provided a device for making ice in a refrigerator, comprising an ice maker for making ice, which is located on a rear side of a door for selectively opening or closing a container for storing a refrigerator; and an ice maker cover removably mounted on the rear side of the door to selectively open or close the ice maker. Here, fastening recesses are made, which are open in the downward direction on the outer sides of both side walls of the ice maker cover, and containing the mounting protrusions located in corresponding places on opposite sides of the pair of supporting ledges that protrude backward from both side ends of the rear side of the door by a predetermined length, and made elongated up and down. In addition, ledges are made at the lower ends of both side walls of the ice maker cover to prevent clearance, and are mounted on ribs to prevent clearance made elongated horizontally at respective places on opposite sides of the bearing ledges below the mounting protrusions.

Additionally, a mounting hook may be provided at the lower end of the rear side of the ice maker cover next to the rear side of the door, wherein the mounting hook is resiliently attached to the connecting ledge so that a portion of the rear side of the door protrudes back a predetermined length for laterally connecting the upper ends of the supporting ledges .

The device for making ice may further comprise a channel for cold air, made longitudinally elongated in the upper part of the storage tank to provide the ice maker with a portion of cold air supplied to the storage tank; and an ice storage device mounted for removal on the rear side of the door below the ice machine, for storing ice prepared in the ice machine and transferring ice to the dispenser located on the door.

In accordance with another aspect of the present invention, there is provided a device for making ice in a refrigerator, comprising an ice maker for making ice, which is located on a rear side of a door for selectively opening or closing a refrigerator storage container; an ice accumulator, which is removably mounted on the rear side of the door below the ice maker, for storing ice prepared in an ice maker, and comprises means for dispensing ice for transferring ice to the dispenser located on the door, and means for crushing ice; a drive connector located on one side of the rear side of the door and rotatably driven by drive means to provide a driving force used to drive the means for dispensing ice and means for crushing ice; a locking connector located on one side of the rear side of the ice storage and rotatably coupled with rotation of the driving connector for transmitting the driving force of the driving means to the ice dispensing means and the ice crushing means, wherein a pair of locking protrusions having a cylindrical shape and protruding from the rear side of the door, is provided on the drive connector, and a pair of locking ribs, respectively interacting with the locking protrusions, is provided on the block a locking connector, whereby when the drive connector is rotated, the locking connector rotates by locking protrusions and locking ribs that cooperate with each other.

The device for making ice may further comprise a support element mounted in a space that is formed by the rear side of the door, the opposite sides of the pair of support ledges protruding backward from the two side ends of the rear side of the door to a predetermined length and made elongated in the up and down directions, and the support ledge made elongated laterally in such a way that a part of the rear side of the door between the supporting ledges protrudes back to a predetermined length, while the supporting element has a a mounting space in which an ice maker and an ice storage are installed, the drive means being a drive electric motor mounted between the rear side of the door and the support ledge, and the drive connector and the locking connector are rotatably mounted in mounting recesses formed on one side of the front side of the installation space and the back of the ice pack.

The locking protrusion can protrude from one side of the front side of the installation space to a predetermined length, and the locking rib can be located in the installation recess of the ice storage.

The ice generator may further comprise a channel for cold air, made elongated in the longitudinal direction in the upper part of the storage tank to provide the ice machine with a portion of cold air supplied to the storage tank; and an ice maker cover mounted on the rear side of the door with the possibility of removal for the selective opening and closing of the ice maker.

In accordance with another aspect of the present invention, there is provided a device for making ice in a refrigerator, comprising an ice maker for making ice that is located on a rear side of a door to selectively open or close a container for storing a refrigerator; a cold air channel located on one side of the storage container to provide the ice maker with a portion of the cold air supplied to the storage container, while an insulating material is provided in the cold air channel to prevent freezing of the inner surface of the cold air channel as a result of exposure to cold air, fed into the ice maker.

Both ends of the channel for cold air can be made, respectively, with an inlet for cold air through which a portion of cold air is introduced to be fed into the storage container, and with an outlet for cold air through which a portion of cold air is supplied to the ice machine, and however, insulating material may be provided in the channel for cold air between the inlet for cold air and the outlet for cold air.

The insulation material may be made of expanded polyethylene.

The device for making ice may further comprise an ice maker cover mounted with a possibility of removal on the rear side of the door for selectively opening and closing the ice maker; and an ice storage device mounted with the possibility of removal on the rear side of the door, for storing ice prepared in an ice maker, and transferring ice to a dispenser located on the door.

In accordance with another aspect of the present invention, there is provided an apparatus for making ice in a refrigerator, comprising an ice maker for making ice, which is located on a rear side of a door for selectively opening and closing a container for storing a refrigerator; an ice maker cover mounted with a possibility of removal on the rear side of the door for selectively opening and closing the ice maker; a cold air channel located on one side of the storage tank to provide the ice maker with a portion of cold air supplied to the storage tank; and an ice storage device mounted for removal on the rear side of the door below the ice machine, for storing ice prepared in the ice machine and transferring ice to the dispenser located on the door. In this case, the mounting recesses are made open downward on the outer sides of both side walls of the ice maker cover and accommodating mounting protrusions located in corresponding places on opposite sides of the pair of bearing ledges that protrude backward from both side ends of the rear side of the door to a predetermined length and are elongated in the upward direction and down. Additionally, a mounting hook is provided at the lower end of the rear side of the ice maker cover next to the rear side of the door, wherein the mounting hook is resiliently attached to the connecting ledge so that a portion of the rear side of the door protrudes back a predetermined length for laterally connecting the upper ends of the supporting ledges.

Steps to prevent clearance can be located on the lower ends of both side walls of the ice maker cover and mounted on ribs to prevent the gap made elongated horizontally in respective places on opposite sides of the bearing ledges below the mounting ledges.

An insulating material may be provided in the cold air duct to prevent freezing of the inner surface of the cold air duct as a result of exposure to cold air supplied to the ice maker.

Both ends of the channel for cold air can be made with an inlet for cold air, through which a portion of cold air is introduced for supply to the storage tank, and with an outlet for cold air, through which cold air supplied to the ice maker is discharged, respectively, while in the channel for cold air insulation material may be provided between the cold air inlet and the cold air outlet.

An additional outlet for cold air can be made on one side of the channel for cold air so that part of the cold air in the channel for cold air is discharged through it into the storage tank.

The insulation material may be made of expanded polyethylene.

Means for dispensing ice for transferring ice stored in the ice storage device to the dispensing device and ice crushing means may be located on one side of the ice storage device, the drive connector rotatably driven by the driving means may be located on one side of the rear side doors, a locking connector for transmitting the driving force of the driving means to the means for dispensing ice and means for crushing the ice together with the rotation of the driving connector can be located with on one side of the rear side of the ice store, and a pair of locking protrusions protruding from the drive connector can interact with the locking ribs made on the locking connector, so that the drive connector and the locking connector interact with each other.

The drive connector can be mounted rotatably on one side of the support element, which is mounted on the rear side of the door and forms a mounting space in which the ice maker and the ice storage can be installed, and the locking connector can be mounted rotatably in the installation recess made concave on the back side of the ice storage, and the locking rib can be located in the installation recess.

Benefits

According to the ice-making apparatus of the present invention, made in the manner described above, the advantages are provided that the capacity of the refrigerator can be fully utilized, the smell of foodstuffs can be prevented from penetrating ice during the ice-making process, and the shelf life may be increased. product and keeping the refrigerator clean, and it is also possible to prevent the user from being harmed by the product.

Brief Description of the Drawings

1 is a sectional side view illustrating a main part of a refrigerator provided with a conventional ice making apparatus.

FIG. 2 is a perspective view illustrating a refrigerator that is provided with an apparatus for making ice in a refrigerator according to a preferred embodiment of the present invention.

FIG. 3 is an exploded perspective view illustrating a main part of the embodiment shown in FIG. 2.

FIG. 4 is a sectional side view illustrating a cold air passage included in an embodiment of the invention shown in FIG. 2.

FIG. 5 is an exploded perspective view illustrating a main part of another embodiment shown in FIG. 2.

FIG. 6 is a sectional side view illustrating an ice maker cover included in the embodiment of the invention shown in FIG. 2.

FIG. 7 is a plan view illustrating a lower portion of an ice storage member of the embodiment of FIG. 2.

FIG. 8 is a sectional side view illustrating a process for receiving a stream of cold air and an ice supply process in the embodiment shown in FIG.

Preferred Embodiment

Next, with reference to the accompanying drawings, preferred embodiments of an apparatus for preparing ice in a refrigerator in accordance with the present invention are described in detail.

FIG. 2 shows a refrigerator that is provided with an ice making apparatus according to a preferred embodiment of the present invention, FIG. 3 shows a main part of the embodiment shown in FIG. 2, FIG. 4 shows a channel for cold air included in an embodiment shown in FIG. 2, FIG. 5 shows another major part of the embodiment shown in FIG. 2, and FIGS. 6 and 7 show an ice maker cover and an ice store included in the embodiment shown in FIG. 2.

As shown in the drawings, the freezer 121 and the refrigerator 129 are located in the main body 100 of the refrigerator so that they are placed side by side. Moreover, the outer shell 111 defines the appearance of the main body 100. The inner shell 113, which forms the inner surface of the main body 100, is connected to the inner surface of the outer shell 111. That is, the freezer 121 and the refrigerator 129 are formed by the inner shell 113.

At the same time, the freezer door 131 and the refrigerator door 139 are located in the main body 100. The freezer door 131 and the refrigerator door 139 are each rotatably mounted on its one end part so that its front end part moves longitudinally direction. The freezer door 131 and the refrigerator door 139 serve to selectively open and close the freezer 121 and the refrigerator 129, respectively.

Moreover, the freezer door 131 and the refrigerator door 139 are provided with a dispenser 131a and an integrated home bar 139a, respectively. The dispenser 131a allows the user to draw water or ice from the outside without opening the freezer door 131. The integrated home bar 139a allows the user to take the drink from the outside without opening the refrigerator compartment door 139.

The casing 123 is located in the freezer 121. At the same time, the rear side of the casing 123 is located at a predetermined length from the rear wall of the freezer 121. In addition, a heat exchange chamber 124 (see FIG. 8), in which an evaporator (not shown), a blower fan (not shown), and other similar parts are mounted, is formed between the rear side of the freezer 121 and the rear side of the casing 123.

In addition, a plurality of cold air exhaust openings 123a and 123b are provided in the housing 123. The cold air exhaust openings 123a and 123b are parts through which cold air used in the heat exchange evaporator is discharged into the freezing chamber 121 by driving an air blower. The holes 123a and 123b for the release of cold air are made in the casing 123 so that they are located vertically or horizontally at a distance from each other.

As shown in detail in FIG. 3, the mounting rib 125 is located on the front side of the casing 123 above the cold air outlet 123a, which is located in the uppermost part of the freezer 121 among the cold air vents 123a and 123b. The mounting rib 125 protrudes from the front side of the casing 123 in a forward direction and is made extending laterally. At the same time, it is preferable that both ends of the mounting rib 125 are rounded down.

In addition, the upper part of the freezer 121 is made with a pair of fixing holes 126 and a mounting recess 127. The fixing holes 126 and the mounting recess 127 in the freezer 121 are made in the front upper part of the freezer 121, coinciding in front with the cold air outlet 123a and the fixing rib 125. At the same time, it is preferable that the mounting recess 127 of the freezer 121 is located between the mounting holes 126 of the freezer 121.

The upper part of the freezer 121 is made with a channel 141 for cold air. The cold air channel 141 serves to direct a portion of the cold air stream discharged through the cold air outlet 123a to the rear side of the freezer door 131, and thus serves essentially to supply cold air to the ice maker 161, which is described below.

To this end, the channel 141 for cold air is made passing in the longitudinal direction and has a U-shape with an open upper part. Therefore, the channel through which cold air is essentially supplied by flow to the ice maker 161 is formed by the upper part of the freezer chamber 121 and the inner surface of the channel for cold air 141.

As shown in FIG. 4, it is preferable that the height of the cold air passage 141 gradually increase from its front end to its rear end. That is, the channel 141 for cold air is made with a slope, and with a given angle of inclination down from its front end to its rear end. Moreover, the height of the rear end of the cold air passage 141 is relatively greater than at least the total height of the cold air outlet 123a.

A cold air channel 141 is installed in the upper part of the freezer chamber 121 with a longitudinal passage. At the same time, the rear end of the cold air passage 141 comes into contact with the front side of the casing 123 so that the cold air outlet 123a is located in the cold air passage 141. In addition, the front end of the cold air passage 141 is located adjacent to the front end of the upper portion of the freezer 121.

The inlet 143 for cold air is made in the rear of the channel 141 for cold air. The cold air inlet 143 serves as an inlet through which cold air discharged through the cold air outlet 123a is introduced into the cold air channel 141.

In addition, the release of 144 for cold air is made in front of the channel 141 for cold air. The cold air outlet 144 serves as an outlet through which cold air introduced into the cold air passage 141 through the cold air inlet 143 is discharged to enter the ice maker cover 171, which is described below, into the cold air inlet 175. However, as described above, the channel for cold air 141 is made with a gradual increase in height from its front end to its rear end. Therefore, the cold air outlet 144 is tilted down toward the front of the freezer 121.

Moreover, an additional cold air outlet 145 is located at the rear of the cold air passage 141 adjacent to the cold air inlet 143. The optional cold air outlet 145 serves to discharge a portion of the cold air that is introduced into the cold air passage 141 through the cold air outlet 123a to the freezer 121.

In addition, the supporting rib 146 is located on the inner surface of the rear end of the cold air channel 141. A support rib 146 is formed at the rear end of the cold air passage 141 and extends laterally. Moreover, in the position where the cold air passage 141 is installed in the upper part of the freezer chamber 121, the lower part of the support rib 146 rests on the upper part of the mounting rib 125.

In addition, a pair of mounting bosses 147 are mounted on the inner surface of the front of the cold air passage 141, coinciding with the front of the cold air outlet 144. The mounting bosses 147 protrude upward from the inner surface of the front of the cold air passage 141, so that the guide ends of the mounting bosses 147 come into contact with the upper part of the freezer chamber 121. The fixing bosses 147 are longitudinally spaced apart from each other at a predetermined distance. Moreover, the through hole 147a through which the fastening screw S1 for connecting with the fastening hole 126 of the freezer 121 is passed is made in each of the fastening bosses 147.

The mounting protrusion 148 is formed on the inner surface of the front of the cold air duct 141 between the mounting bosses 147. The mounting protrusion 148 projects upward from the inner surface of the front of the cold air duct 141. At the same time, the mounting protrusion 148 is made longer than the mounting boss 147 and, thus, is inserted into the mounting recess 127 of the freezer 121.

Insulation material 149 is provided on the inner surface of the cold air passage 141. Insulation material 149 is provided on the inner surface of the cold air passage 141 between the cold air outlet 144 and the additional cold air outlet 145. The insulating material 149 serves to prevent a phenomenon such as freezing on the inner surface of the cold air channel 141, which flows into the cold air channel 141 through the cold air inlet 143.

Preferably, the insulating material 149 is made of expanded polyethylene. This makes it possible to use insulating material 149 with a thickness of 3 mm or less, thereby maximizing the amount of cold air entering the ice maker 161 through the cold air channel 141. However, the insulating material 149 is not limited to this, and can be made entirely of expanded polystyrene.

In addition, as shown in detail in FIG. 5, the outer door 133 defines a front view of the freezer door 131. In addition, the door lining 134 defining the appearance of the rear side of the freezer door 131 is connected to the inner surface of the outer door 133.

Moreover, the supporting ledges 135 are made, respectively, on both side ends of the rear side of the door 131 of the freezer. A portion of the door lining 134 protrudes backward at a predetermined length, so that each supporting ledge 135 is located vertically. Many mounting protrusions 135a and 135b are made in their respective places on the side surfaces of the support ledges 135 located opposite each other.

In addition, ribs 135c are provided on opposite sides of the support ledges 135 to prevent clearance, which are located opposite each other. The ribs to prevent the gap 135c are installed in appropriate places so that they are located at a predetermined distance downward from the mounting protrusion 135b of the protrusions 135a and 135b, that is, are located relative to the upper part of the support ledge 135. The ribs 135c to prevent the gap are made elongated in the horizontal direction at opposite sides of supporting ledges 135.

Moreover, the supporting ledge 136 is located on the rear side of the freezer compartment 121. The supporting ledge 136 is configured so that a portion of the door liner 134 between the supporting ledges 135 protrudes backward by a predetermined length. At the same time, the supporting ledge 136 protrudes a distance relatively greater than the supporting ledge 135. In addition, the supporting ledge 136 is formed essentially by the placement of the dispenser 131a.

In addition, in the supporting ledge 136 made a communication hole 136a. The communication hole 136a is formed in the support ledge 136 so that a portion of the reference ledge is cut out. The communication hole 136a, made in the supporting ledge 136, serves to supply ice prepared in the ice maker 161 to the dispenser 131a. In addition, a pair of mounting holes 136b are provided in the front end portion of the abutment shoulder 136.

Moreover, the rear side of the door 131 of the freezer is made with a connecting ledge 137. The connecting ledge 137 is made passing so that part of the door lining 134 protrudes back a predetermined distance so as to laterally connect the upper ends of the supporting ledges 135.

The support member 151 is located on the rear side of the freezer door 131. The support element 151 is made in the form of a polyhedron with an open part for the formation there of a given installation space 151S. That is, the support member 151 includes a front plate 153 forming the front side of the mounting space 151S, two side plates 155 forming two side surfaces of the mounting space 151S, and a lower plate 157 forming the lower surface of the mounting space 151S. The reverse side of the front plate 153 is in contact with the rear side of the door 131 of the freezer between the supporting ledges 135. The outer surfaces of both side plates 155 come into contact with the side surfaces of the supporting ledges 135, which are facing each other. In addition, the lower surface of the lower plate 157 is in contact with the upper side of the installation ledge 136.

The front side of the installation space 151S is made with guides 153a for cold air. Cold air guides 153a are used to direct a portion of cold air that is supplied to the ice maker 161 via the cold air channel 141 to the space between the installation space 151S and the ice maker 161. The cold air guides 153a are paired and are located on the upper part of the front side of the installation space 151S and pass vertically at a certain distance from each other. In the shown embodiment, the cold air guides 153a are configured such that a portion of the front plate 153 forming the front side of the mounting space 151S projects forward.

In addition, a pair of mounting holes 153b is made in the front side of the installation space 151S. Preferably, the mounting holes 153b are formed in the upper part of the front side of the mounting space 151S corresponding to one side of the cold air guide 153a.

Moreover, a gripping rib 153c is formed on the front side of the mounting space 151S. The gripping rib 153c is designed so that part of the front plate 153 protrudes forward. In a position where the ice accumulator 181 described below is installed in the installation space 151S, the catch rib 153c is located on a path that is formed by the upper end of the ice accumulator 181 when the upper end of the ice accumulator 181 is rotated relative to its lower end in a direction in which the upper end is located on distance from the front wall of the installation space 151S.

Many components for the operation of the dispenser 131a and the ice maker, although not shown, are installed in the space between the rear side of the freezer door 131 and the rear side of the support member 151, that is, the rear side of the front plate 153. In this space, for example , an electric motor (not shown) that provides a driving force for use in feeding and crushing ice stored in the ice storage 181.

In addition, the motor shaft (Ma) extends through one side of the front lower portion of the installation space 151S and is installed within the installation space 151S. Moreover, the drive connector 154 is mounted on the shaft (Ma) of the electric motor. The drive connector 154 is driven by an electric motor and thus rotates relative to the shaft (Ma) of the electric motor.

The drive connector 154 is made with a given length. In addition, the locking protrusions 154a are made on both ends of one side of the drive connector 154. The locking protrusion 154a is made in the form of a cylinder extending vertically from one side of the drive connector 154, and thus protrudes forward into the installation space 153. Since the locking protrusion 154a is made , as described above, in the form of a cylinder, it is possible to prevent harm to the user's body by means of the locking protrusions 154a even in such a position that the ice storage device 181 is removed from the installed full-time space 151S.

Moreover, the mounting recesses 155a are made on the outer sides of both side walls of the support member 151, coinciding with the outer sides of both sides of the mounting space 151S, respectively. The mounting recess 155a of the support member 151 is substantially U-shaped, open downward. The mounting protrusion 135a of the support ledge 135 is inserted into the mounting recess 155a of the supporting element 151. Therefore, if the supporting element 151 is moved downward, the fixing protrusion 135a of the supporting ledge 135 is inserted into the mounting recess 155a of the supporting element 151, and thus, the supporting element 151 is attached to rear side of freezer door 131.

A communication hole 157a is located at the bottom of the mounting space 151S. The communication hole 157a of the installation space 151S provides communication with the communication hole 136a of the support ledge 136. Therefore, ice passing through the communication hole 157a of the installation space 151S and the communication hole 136a of the mounting ledge 136 is removed by the dispenser 131a. The communication hole 157a of the installation space 151S is configured such that a portion of the lower plate 157 corresponding to the lower side of the installation space 151S is cut out.

In addition, a pair of through holes 157b are formed in front of the lower side of the mounting space 151S. The through hole 157b of the mounting space 151S is the hole through which the fastening screw S2 passes to secure the support ledge 136 in the fastening hole 136b. Moreover, a pair of gripping protrusions 157c are formed in front of the lower side of the mounting space 151S. Each of the gripping protrusions 157c is configured such that a portion of the lower plate 157 corresponding to the lower side of the mounting space 151S protrudes upward.

An ice maker 161 is located at the top of the installation space 151S. An ice maker 161 serves to prepare ice recovered by a dispenser 131a. A pair of mounting brackets 163 is mounted on one side of the ice maker 161. Each of the mounting brackets 163 is provided with a through hole 163a. The fixing screw S3 passing through the opening 163a of the ice maker 161 is fixed in the fixing hole 151b of the installation space 151S, so that the ice maker 161 is fixed relative to the installation space 151S.

The ice maker cover 171 is removably mounted in the upper part of the installation space 151S. The ice maker cover 171 serves to selectively open or close the ice maker 161 and to allow the cold air supplied through the cold air passage 141 to the ice maker 161. Therefore, in the position where the ice maker cover 171 is installed in the mounting space 151S, the ice maker 161 is installed substantially , in the cover 171 of the ice maker.

The cover of the ice maker 171 is made in the form of a polygon having an open bottom side and one open side next to the rear side of the door 131 of the freezer. In addition, the mounting recesses 173 are made on the outer sides of the two side walls of the ice maker cover 171, respectively. The mounting recess 173 of the cover 171 of the ice maker is made U-shaped, open down. The mounting protrusion 135b of the supporting ledge 135 is inserted into the mounting recess 173 of the ice cover 171 of the ice maker.

In addition, as shown in FIG. 6, the mounting hook 174 is made with a certain resilience so that the ice maker cover 171 is resiliently attached to the connecting shoulder 137 in a position where the ice maker cover 171 is installed in the mounting space 151S.

The cover of the ice maker 171 is made with a gradual increase in height from its rear end, near the rear side of the door 131 of the freezer, to its front end. Therefore, the upper side of the cover of the ice maker 171 is made with a downward inclination at the same angle as the channel 141 for cold air from its rear end, near the rear side of the door 131 of the freezer, to its front end. That is, the cold air passage 141 and the ice maker cover 171 are shaped to match each other. Accordingly, in the position where the freezer door 131 closes the freezer 121, the cold air passage 141 and the ice maker cover 171 are adjacent to each other.

An inlet 175 for cold air is made in the upper side of the ice maker cover 171. The cold air inlet 175 serves as an inlet into which cold air is supplied through the cold air outlet 144 of the cold air passage 141. In the position where the freezer door 131 closes the freezer 121, the cold air inlet 175 is configured to communicate with the cold air inlet 143 and has a size and shape corresponding to the cold air inlet 143.

The cold air inlet 175 is configured with a plurality of vanes 176. The vanes 176 serve to direct the cold air that is introduced through the cold air inlet 175 into the ice maker 161. Each of the vanes 176 is tilted at a predetermined angle relative to the vertical axis to direct the cold air to the ice maker 161 on the shortest path. Therefore, the angle of inclination of the blade 176 varies depending on the distance from the ice maker 161 and the position relative to it.

For example, among the blades 176, the first blade 176a, located closest to the ice maker 161, has an angle of inclination of 45 degrees with respect to the vertical axis. In addition, among the blades 176, the seventh blade 176g, located at a distance farthest from the ice maker 161, has an angle of inclination of 70 degrees with respect to the vertical axis. At the same time, the second to sixth vanes 176b, 176c, 176d, 176e and 176f, located between the first vanes 176a and the seventh vanes 176g, respectively, have angles of inclination that are made with a gradual increase between 45 and 70 degrees relative to the vertical axis as away from the ice maker 161. That is, the blades from the second to the sixth 176b, 176c, 176d, 176e and 176f have tilt angles of 49, 53, 57, 61 and 65 degrees with respect to the vertical axis, respectively.

In addition, the ice maker cover 171 is provided with an inspection window 177. The inspection window 177 of the ice maker cover 171 is made of a transparent or translucent material. The viewing window 177 of the cover 171 of the ice maker is designed to observe the process of ice preparation in the ice maker 161 with a naked eye in a position where the user does not remove the cover 171 of the ice maker.

The steps 178 to prevent clearance are made at the lower ends of both side surfaces of the ice maker cover 171. A step 178 to prevent clearance is located below the mounting recess 173 of the ice cover 171 of the ice maker. When the ice maker cover 171 is installed in the mounting space 151S, a shoulder 178 to prevent clearance is mounted on the upper side of the rib 135c to prevent the gap. Thus, the mounting protrusion 135a is inserted into the mounting recess 173 of the ice maker cover 171, and the gap preventing ledge 178 is mounted on the rib 135c to prevent the gap, thereby preventing such an effect that the ice maker cover 171 has some free play in the up and down directions in the position when it is installed in the installation space 151S.

Referring to FIG. 5, an ice storage device 181 is removably mounted in the lower portion of the installation space 151S below the ice machine 161 and the ice cover 171. Ice prepared in an ice maker 161 is stored in an ice store 181. In addition, the ice store 181 moves the accumulated ice to the dispenser 131a to enable the user to extract ice from the outside.

The ice store 181 is made in the form of a polygon having the same profile as the ice maker cover 171. In addition, in the ice storage 181, a storage tank 181S with an open top is located. Storage capacity 181S provides storage of ice prepared in an ice maker 161.

As shown in FIG. 7, an ice supply hole 183 is provided at the bottom of the ice storage 161. The ice supply hole 183 serves as an outlet for moving ice contained in the storage tank 181S to the dispenser 131a. That is, ice stored in the storage tank 181S is transferred to the dispenser 131a through the ice supply hole 183, the communication hole 157a of the installation space 151S and the communication hole 136a of the support ledge 136.

In addition, in the ice storage 181, there is arranged a means for dispensing ice stored in the storage tank 181S to the dispenser 131a through the ice supply hole 183. Ice storage means 181 also has an ice crusher, which is supplied to the dispenser 131a according to the user's choice.

Moreover, a pair of exciting recesses 184 is made in the lower part of the ice storage 181. The gripping protrusions 157c are respectively inserted into the gripping recesses 184. Therefore, the ice accumulator 181 does not move arbitrarily in the longitudinal direction in the storage container 181S in a position where the ice accumulator 181 is installed in the installation space 151S.

In addition, in the position where the ice accumulator 181 is installed in the installation space 151S, the periphery of the upper end of the ice accumulator 181 is located at a predetermined distance from the bottom of the ice maker 161 and the periphery of the lower end of the ice maker cover 171. In this case, the gap between the periphery of the lower end of the cover 171 of the ice maker and the lower part of the ice maker 161 and the periphery of the upper end of the ice storage 181 is structurally made relatively smaller than the height of the gripping protrusion 157c. In addition, the rear side of the ice storage 181 is located at a predetermined distance from the front side of the installation space 151S.

This is to prevent arbitrary removal of the ice accumulator 181 from the installation space 151S. That is, in the position where the ice maker 161 and the ice maker cover 171 are installed in the installation space 151S, the ice storage 181 cannot be moved in the vertical direction. In addition, since the gripping protrusions 157c are inserted into the gripping recesses 184, the ice storage 181 also cannot be moved in the longitudinal direction or in the lateral direction.

Therefore, to remove the ice accumulator 181 from the installation space 151S, the ice accumulator 181 is moved upwardly deflected to a position where the upper end of its rear side is rotated so as to be adjacent to the front side of the installation space 151S, and then the gripping protrusions 157c are removed from the gripping recesses 184. In this case, the ice storage device 181 is moved until the upper end of its rear side comes into contact with one part of the front side of the installation space 151S, and more specifically about with a part adjacent to the edge formed by the rear end of the lower part of the ice maker 161 and the front side of the installation space 151S. In addition, the ice accumulator 181 is moved horizontally to be placed at a distance from the front side of the installation space 151S, whereby the ice accumulator 181 can be removed from the installation space 151S. In addition, the ice store 181 may be installed in the installation space 151S in the reverse order.

The rounded portion 185 may be formed at the lower end of the rear side of the ice storage 181.

The rounded portion 185 allows free rotation of the ice storage 181 relative to its lower end in a direction in which the upper end of the rear wall of the ice storage 181 is located adjacent to the front side of the installation space 151S, so that the ice storage 181 can be installed or removed from the installation space 151S.

In addition, an impact may occur during rotation of the freezer door 131. However, since the lower end of the ice accumulator 181 is limited in movement due to the gripping protrusion 157c and the gripping recesses 184, the ice accumulator 181 rotates around its lower end. That is, the ice store 181 is rotated relative to its lower end in a direction in which the upper end becomes adjacent or at a distance from the front side of the installation space 151S.

However, the ice store 181 is installed so that its rear side is located at a predetermined distance from the front side of the installation space 151S. Therefore, during the rotation of the freezer door 131, although the ice store 181 rotates around its lower end in a direction in which its upper end becomes adjacent to the front side of the installation space 151S, the ice store 181 is not removed from the installation space 151S.

In addition, the upper end of the rear side of the ice storage 181 is located adjacent to the bounding rib 153c. Therefore, although the ice accumulator 181 rotates around its lower end part in a direction in which its upper end part becomes spaced apart from the front side of the mounting surface 151S, the upper end part of the rear side of the ice accumulator 181 is pressed against the restriction rib 153c, and thus the ice accumulator 181 cannot be accidentally removed from the installation space 151S.

In addition, the ice store 181 is made with a viewing window 187. The viewing window 187 of the ice store 181 is made of a transparent or translucent material similar to the viewing window 177. Moreover, the user can determine the amount of ice contained in the storage tank 181S through the viewing window 187 of the lid 171 ice maker.

Moreover, an installation recess 188 is formed in the lower part of the rear side of the ice accumulator 188. The installation recess 188 of the ice accumulator 181 is made in a position corresponding to the drive connector 154. The installation recess 188 of the ice accumulator 181 is concave, so that a portion of the rear side of the ice accumulator 181 has a round transverse section.

One end of the axis of rotation A is installed in the installation recess 188 of the ice storage device 181. The other end of the axis of rotation A passes into the ice store 181. In addition, the means for dispensing ice and the means for crushing ice are connected to the axis A of rotation passing to the ice storage 181. Therefore, if the rotation axis A rotates, then the ice dispensing means and the ice crushing means work so that the ice in the storage tank 181S is supplied to the dispenser 131a or crushed.

In addition, a locking connector 189 is installed in the mounting recess 188 of the ice storage 181. The locking connector 189 is rotatably mounted about the axis of rotation A. The locking connector 189 is made in the form of a cylinder having a diameter relatively smaller than the dimensions of the mounting recess 188 of the ice storage 181.

On the inner annular surface of the blocking connector 189, a pair of blocking ribs 189a is arranged. The locking ribs 189a protrude on both sides of the inner annular surface of the locking connector 189 by a predetermined length in the direction in which they face each other. Therefore, the locking rib 189a is located essentially in the mounting recess 188 of the ice storage 181. In the position where the ice storage device 181 is installed in the lower part of the mounting space 151S, the locking rib 189a is in cooperation with the locking protrusion 154a and thus serves to rotate the locking connector 189 in conjunction with the rotation of the drive drive connector 154.

The following describes in detail the operation of an ice making apparatus in a refrigerator in accordance with a preferred embodiment of the present invention with reference to the accompanying drawings.

Fig. 8 shows a cold air flow process and an ice supply process in a preferred embodiment of an ice making apparatus in a refrigerator in accordance with the present invention.

As shown in the drawing, when the blower fan is driven, cold air that is heat exchanged in an evaporator installed in the heat exchanger chamber 124 is discharged into the freezer chamber 121 through the openings 123a and 123b for releasing cold air. Then, cold air discharged through any of the cold air vents 123a and 123b, for example a cold air vent 123a, is introduced into the cold air duct 141 through the cold air inlet 143.

A portion of cold air introduced into the cold air passage 141 is supplied to the freezer 121 through an additional cold air outlet 145. Then, the remaining cold air entering the cold air passage 141 is discharged through an additional cold air inlet 144, and is supplied to the ice maker 161 located in the ice maker cover 171 through the cold air inlet 175.

In addition, insulation material 149 is provided in the cold air passage 141. Consequently, while cold air introduced into the cold air passage 141 through the cold air inlet 143 is discharged through the cold air outlet 144 and the additional cold outlet 145 air, it is possible to minimize such an effect as freezing in the channel 141 for cold air.

In the position where the freezer 121 is closed by the freezer door 131, the cold air passage 141 and the ice maker cover 171 are mated to each other in shape. Therefore, the effect is minimized when cold air introduced into the cold air inlet 175 through the cold air outlet 144 exits, that is, into the freezer chamber 121. In addition, cold air supplied to the ice maker 161 through the inlet 175 for cold air, it is sent along the shortest path with the help of blades 176. Therefore, the cold air is directed so as to be supplied to the ice maker 161 with greater efficiency by means of the blades 176.

In addition, a portion of the cold air directed by the blades 176 enters through the space between the front side of the mounting space 151S and the ice maker 161 through the cold air guides 153a, and then is supplied to the ice maker 161. Therefore, cold air is also supplied uniformly to one side of the ice maker 161 corresponding to the opposite side to the cold air inlet 175.

The ice prepared in the ice maker 161 is stored in the storage tank 181S in the ice storage 181. Then, ice is discharged through the dispenser 131a by manipulation of the user. At this time, the ice may be crushed into parts having a predetermined size according to the user's choice.

More specifically, when the motor shaft Ma rotates by the electric motor drive, the drive connector 154 is rotated. Furthermore, when the drive connector 154 rotates, the lock connector 189, the lock rib 189a of which cooperates with the lock protrusion 154a of the drive connector 154, also rotates together with rotation of the drive connector. Therefore, the rotation shaft A, which is connected to the locking connector 189, rotates.

Furthermore, when the rotation shaft A rotates, the means for dispensing ice and the means for crushing the ice are activated. Therefore, ice stored in the storage tank 181S is removed outwardly by the dispenser 131a in finished or crushed form.

It will be apparent to those skilled in the art that various changes and additions can be made without departing from the scope of the invention. The true scope of the present invention should be construed in accordance with the appended claims.

Industrial applicability

In accordance with the above-described apparatus for preparing ice in a refrigerator, the following advantages are expected.

First, the ice maker in the present invention is mounted on the rear side of the freezer door. Therefore, it is possible to prevent such an effect that the capacity of the storage container, and more particularly the freezer, is reduced, thereby storing significantly more food products in the freezer.

In addition, in accordance with the present invention, in the position where the ice maker is closed by the lid of the ice maker, a portion of the cold air supplied to the freezer is supplied through the channel for cold air, thereby preparing ice. Therefore, in the process of preparing ice in an ice maker, it is possible to minimize such a phenomenon when the smell of other food products stored in the freezer penetrates the ice, thereby making ice preparation more hygienic.

Moreover, in accordance with the present invention, an ice storage device that stores ice prepared in an ice maker and transfers ice to a dispenser is also mounted on the rear side of the freezer door. Therefore, it is possible to minimize such an effect when the odor of other food products penetrates the ice when the ice is stored in the ice storage device, and at the same time, the time required for dispensing ice by means of the dispenser is reduced.

In addition, in accordance with the present invention, the fastening protrusion of the freezer door is inserted into the mounting recess of the ice maker cover, and the ledge to prevent the gap of the ice maker cover is mounted on the ridge to prevent the freezer door from clearance, thereby preventing the effect when the ice maker has partial free play up and down in the position when it is installed on the freezer door. Therefore, it is possible to prevent the effect when the ice maker and the ice maker cover are damaged as a result of the collision, thereby increasing the durability of the product.

Moreover, in accordance with the present invention, a locking protrusion in the form of a cylinder is located on a drive connector that is mounted on the rear side of the door to transmit a driving force to the ice dispensing means and the ice crushing means located in the ice storage. Therefore, even if the ice store is removed from the rear side of the door, it is possible to prevent harm to the user by the locking protrusion, which leads to safer use of the product.

Moreover, in accordance with the present invention, an insulating material is provided in the channel for cold air. Therefore, when cold air is supplied to the ice maker through the cold air channel, it is possible to minimize the effect when freezing occurs in the cold air channel, and thus it is possible to use the refrigerator more cleanly.

Claims (19)

1. A device for preparing ice in a refrigerator, comprising an ice maker for making ice located on a rear side of a door for selectively opening or closing a container for storing a refrigerator, and an ice maker cover that can be removed on a rear side of a door for selectively opening or closing an ice maker, wherein the mounting recesses are made open downward on the outer sides of both side walls of the cover of the ice maker, the mounting recesses being made with the possibility of the mounting tabs located at appropriate places on opposite sides of the pair of supporting ledges that protrude back from both side ends of the rear side of the door to a predetermined length and are elongated up and down, and the ledges to prevent clearance are located on the lower ends of both sides of the ice maker cover while the ledges to prevent clearance are installed on the ribs to prevent clearance, made elongated in the horizontal direction in appropriate places opposite s side ledges supporting lower fastening lugs. 2. The device according to claim 1, in which the mounting hook is additionally provided on the lower end of the rear side of the ice cover next to the rear side of the door, wherein the mounting hook is resiliently attached to the connecting ledge, designed so that part of the rear side of the door protrudes back to a predetermined length for lateral connection of the upper ends of the support ledges. 3. The device according to claim 1 or 2, additionally containing a channel for cold air, made elongated in the longitudinal direction in the upper part of the storage tank to provide the ice maker with a portion of cold air supplied to the storage tank and an ice storage device mounted with the possibility of removal on the back the side of the door below the ice maker to store ice prepared in the ice maker and transfer the ice to a dispenser located on the door. 4. A device for preparing ice in a refrigerator, comprising an ice maker for making ice located on the rear side of the door for selectively opening or closing the storage container of the refrigerator, an ice storage device that can be removed on the rear side of the door below the ice maker for storing ice prepared in the ice maker wherein the ice storage device has means for dispensing ice, for transferring ice to a dispenser located on the door, and means for crushing ice, driven by an expander located on one side of the rear side of the door and rotatably driven by driving means for providing a driving force for use in driving the ice dispensing means and the ice crushing means; and a locking connector located on one side of the rear side of the ice storage and the possibility of rotation together with the rotation of the drive connector for transmitting the driving force of the drive means to the means for dispensing ice and means for crushing ice, etc. this pair of locking protrusions having a cylindrical shape and protruding from the rear side of the door, is provided on the drive connector, and a pair of locking ribs, respectively interacting with the locking protrusions, is provided on the locking connector, whereby when the drive connector is rotated, the locking connector rotates the locking protrusions and locking ribs that interact with each other. 5. The device according to claim 4, additionally containing a support element mounted in a space that is formed by the rear side of the door, the opposite sides of a pair of support ledges protruding backward from both side ends of the rear side of the door by a predetermined length and made elongated up and down, and a supporting ledge made elongated in the horizontal direction so that a portion of the rear side of the door between the supporting ledges protrudes back a predetermined length, while the supporting element has an installation space in which the ice maker and the ice storage are installed, wherein the drive means is a drive electric motor installed between the rear side of the door and the support ledge, the drive connector and the locking connector being rotatably mounted in mounting recesses made on one side of the front side of the installation space and the back of the ice pack. 6. The device according to claim 5, in which the locking protrusion protrudes from one side of the front side of the installation space to a predetermined length, and the locking rib is located in the installation space of the ice storage. 7. The device according to any one of claims 4 to 6, further comprising a channel for cold air, made longitudinally elongated in the upper part of the storage tank to provide the ice maker with a portion of the cold air supplied to the storage tank and an ice maker cover that is removably mounted on the back of the door for selective opening and closing of the ice maker. 8. A device for preparing ice in a refrigerator, comprising an ice maker for making ice located on the rear side of the door for selectively opening and closing a container for storing a refrigerator, a channel for cold air made longitudinally elongated in the longitudinal direction of the upper part of the storage tank to provide a portion of cold ice maker the air supplied to the storage tank, while the inlet for cold air is made in the rear of the channel for cold air for communication with the hole For the discharge of cold air made in the storage tank, and the release of cold air is made in front of the channel for cold air for selective communication with the ice maker and insulation material provided in the channel for cold air to prevent freezing of the inner surface of the channel for cold air as a result of exposure cold air supplied to the ice machine, while an additional outlet for cold air is made in the rear part to exhaust part of the cold air, REFERENCE passage of cold air through the inlet for cold air to the freezing chamber. 9. The device according to claim 8, in which the height of the channel for cold air gradually increases from its front to its rear. 10. The device according to claim 8 or 9, in which the insulating material is provided on the inner surface of the channel for cold air between the outlet for cold air and the additional outlet for cold air, while the insulating material is made of foamed polyethylene. 11. The device according to claim 10, further comprising an ice maker cover that can be removed on the rear side of the door to selectively open and close the ice maker and an ice storage device that is removably mounted on the rear side of the door below the ice maker to store ice prepared in the ice maker, and transferring ice to the dispenser located on the door. 12. A device for preparing ice in a refrigerator, comprising an ice maker for making ice located on a rear side of a door for selectively opening and closing a container for storing a refrigerator, an ice maker cover mounted to be removed on a rear side of a door for selectively opening and closing an ice maker, a channel for cold air located on one side of the storage tank to provide the ice maker with a portion of cold air supplied to the storage tank and store an ice spruce mounted with the possibility of removal on the rear side of the door below the ice maker to store ice prepared in the ice maker and to transfer ice to a dispenser located on the door, the mounting recesses being made open downward on the outer sides of both side walls of the ice maker cover, mounting recesses are configured to accommodate mounting protrusions located in corresponding places on opposite sides of a pair of supporting ledges that protrude back from both the shackle ends of the rear side of the door to a predetermined length and are made elongated in the up and down directions, and a fixing hook is additionally provided at the lower end of the rear side of the ice maker cover next to the rear side of the door, the mounting hook being resiliently attached to the connecting ledge configured so that part of the rear side of the door protrudes back to a predetermined length for lateral connection of the upper ends of the support ledges. 13. The device according to item 12, in which the ledges to prevent the gap is made on the lower ends of both side walls of the cover of the ice maker, while the ledges to prevent the gap are installed on the ribs to prevent the gap, made elongated in the horizontal direction in the corresponding places on the opposite sides of the supporting ledges below fixing ledges. 14. The device according to item 12, in which the insulating material is provided in the channel for cold air to prevent freezing of the inner surface of the channel for cold air as a result of exposure to cold air supplied to the ice maker. 15. The device according to 14, in which both ends of the channel for cold air are made with an inlet for cold air, through which a portion of cold air is supplied to the storage tank, and an outlet for cold air, through which cold air is supplied to an ice maker, respectively, and an insulating material is provided in the channel for cold air between the inlet for cold air and the outlet for cold air. 16. The device according to clause 15, in which an additional outlet for cold air is made on one side of the channel for cold air so that a portion of cold air in the channel for cold air is discharged through it into the storage tank. 17. The device according to any one of paragraphs.14-16, in which the insulating material is made of foamed polyethylene. 18. The device according to any one of paragraphs.12-16, in which means for dispensing ice for transferring ice stored in the ice storage device to the dispensing device, and means for crushing ice are located on one side of the ice storage device, a rotary drive connector drive means, located on one side of the rear side of the door, a locking connector for transmitting the driving force of the drive means to the means for dispensing ice and means for crushing ice together with the rotation of the drive connector is located one side of the rear side of the ice storage device, and a pair of locking protrusions protruding from the drive connector cooperating with the locking ribs is formed on the locking connector such that the drive connector and the locking connector interact with each other. 19. The device according to p. 18, in which the drive connector is mounted to rotate on one side of the support element, which is mounted on the rear side of the door and forms a mounting space in which can be installed ice maker and ice storage, while the locking connector is installed with the possibility rotation in the installation recess made concave on the rear side of the ice storage and the locking rib is located in the installation recess.

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