RU2404394C2 - Device for production of ice for refrigerator - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: refrigerator contains the main body having a storage chamber, a door rotatably mounted on the main body, an evaporator installed in the part of the main body and generating cold air, and a fan, supplying cold air formed by the evaporator, to the storage chamber. The refrigerator additionally comprises supporting ledges that overhand from both side ends of the door rear side, ice maker located in the upper part of the space formed between the supporting ledges, bunker for ice, and an adjusting ledge passing back out of the door to the specified length between the supporting ledges and further on, for reception the bunker for ice. The adjusting ledge has an attaching hole, through which ice is delivered, which is stored in the bunker for ice outside the door.

EFFECT: bunker for ice contains a round part at the rear end of his bottom, which enables to ensure adjustment of the bunker for ice on the rear part of the door at a given distance.

45 cl, 8 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a refrigerator, and more particularly, to an ice maker for a refrigerator that is mounted on a rear side of an ice producing door.

BACKGROUND OF THE INVENTION

Fig. 8 is a side sectional view illustrating a main part of a refrigerator equipped with a conventional ice making apparatus.

As illustrated in the drawing, the inner case 12 is connected to the inner side of the outer case 11, forming the outer view of the main body 10 of the refrigerator. The inner case 12 is intended to form the inner part of the main body 10, and the freezer 13, which is the storage compartment, is essentially formed by the inner case 12.

A door 15 is installed on one side of the main body 10 to open or close the freezer 13. The door 15 is installed in the main body 10 and is capable of pivoting at one end so that its other end moves back and forth. The door 15 consists of an outer door 16 and a lining 17 of the door. The outer door 16 forms the front appearance of the door 15. In addition, the door trim 17 forms the appearance of the rear side of the door 15.

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

A heat exchanger chamber 21 is formed between the rear side of the freezer chamber 13 and the rear side of the wall 19. The lower part of the heat exchanger chamber 21 contains an evaporator (not shown) to generate cold air. In addition, the upper part of the heat exchange chamber 21 contains a blower fan 23 for supplying cold air, which is formed as a result of heat exchange in the evaporator, into the freezer 13.

An ice maker 25 is located in the upper part of the rear side of the freezer 13, corresponding to the front side of the blower fan 23. An ice maker 25 is installed to pass from side to side in the upper part of the freezer 13 next to the wall 19. The ice maker 25 is used to make ice and transfer it to the hopper 31 for ice, which will be described below.

An electric motor casing 27 is mounted on one side of the freezing chamber 13 under the ice maker 25. A feed motor 20 for actuating the feed lever 31A, which will be described later, is installed in the motor casing 17.

The ice hopper 31 is installed in the freezer 13, which corresponds to the front side of the motor housing 27. An ice hopper 31 is used to transfer ice received from the ice maker 25 to a dispenser (not shown) and allows the user to get ice from the outside. To this end, the feed lever 31A, driven by the feed motor 29, is installed in the ice hopper 31. One end of the feed lever 31A is connected to a drive shaft of the feed motor 29.

However, a conventional refrigerator made in this way has the following disadvantages.

As described above, in the prior art, an ice maker 25 is mounted on the rear side of the freezer 13 for passing from side to side. In addition, for transferring ice produced in the ice maker 25 to the dispenser, the motor housing 27 and the ice hopper 31 are respectively located in the freezer 13. Therefore, the disadvantage is that the storage space of the freezer 13 is reduced due to the volume of the ice maker 25, the motor housing 27 and the ice hopper 31.

In addition, since the ice maker 25 is installed in the freezer 13, the ice maker 25 produces ice by circulating cold air in the freezer 13. Therefore, during the production of ice in the ice maker 25, the smell of products stored in the freezer 13 can penetrate the ice.

Disclosure

Technical problem

The present invention addresses the above problems of the prior art. An object of the present invention is to provide an ice making apparatus for a refrigerator, which is configured to prevent a decrease in storage volume of the refrigerator.

Another objective of the present invention is to provide a device for producing ice for a refrigerator, which is designed to minimize the penetration of the smell of other products stored in the refrigerator into the ice.

Technical solution

In accordance with an aspect of the present invention, to achieve the objectives, there is provided an ice making apparatus for a refrigerator comprising a main body having a storage compartment and a door for selectively opening or closing a storage compartment, the ice making apparatus comprising an ice maker mounted on a rear side of the door and producing ice, and a channel for passing cold air, located on one side of the storage compartment and supplying the ice maker with part of the cold air, annogo in the storage compartment.

In this case, the channel for the passage of cold air extends in its longitudinal direction and is located on the ceiling of the storage compartment so that it passes in the direction from front to back.

In addition, a support rib is formed on the inner side of the rear end of the channel for the passage of cold air, and the support rib has a lower side supported on the upper side of the mounting rib formed on the front side of the wall, the wall being located at a predetermined distance from the rear side of the storage compartment, and a mounting protrusion is formed at the front end of the channel for the passage of cold air, and the mounting protrusion is formed with a through hole through which the fastener passes, enny a fastening hole formed on a ceiling of the storage compartment.

Preferably, a mounting protrusion inserted in a mounting recess formed in the ceiling of the storage compartment is further formed at the front end of the channel for passage of cold air.

A cold air inlet may be formed at the rear end of the cold air passage, wherein the cold air inlet is connected to a cold air outlet formed in a wall that is located at a predetermined distance from the rear side of the storage compartment, and an opening for cold air outlet for supplying cold air to the ice maker through an opening for supplying cold air is formed at the front end of the channel for the passage of cold air, and about an aperture for supplying cold air is formed in the ice maker cover, the ice maker cover being removably mounted on the rear side of the door to selectively open or close the ice maker.

An additional cold air outlet for discharging a portion of the cold air supplied through the cold air inlet to the storage compartment is further formed on one side of the cold air passage.

The device for producing ice further comprises an ice maker cover mounted on a rear side of the door to selectively open or close an ice maker for ice, removably mounted on a rear side of a door under an ice maker, wherein the ice hopper stores ice produced in the ice maker, and transfers it to the dispenser located in the door.

In accordance with another aspect of the present invention, there is described an ice making apparatus for a refrigerator comprising a main body having a storage compartment and a door for selectively opening or closing a storage compartment, the ice making apparatus comprising an ice maker mounted on a rear side of the door and producing ice, and an ice maker cover removably mounted on the rear side of the door to selectively open or close the ice maker.

Preferably, the locking recesses open downward into which the locking protrusions are inserted are formed on the outer sides of both sides of the ice maker cover, respectively, wherein the locking protrusions are formed in their respective positions on the side surfaces of the pair of supporting ledges facing each other, and the supporting ledges are formed for the rear protrusion a predetermined length from both lateral ends of the rear side of the door and passing in the vertical direction.

In this case, a fixing hook, elastically attached to the rear side of the door, is located on the lower end of the rear side of the ice maker cover next to the rear side of the door.

Preferably, an opening for supplying cold air to which cold air supplied to the ice machine is supplied is formed on the upper side of the cover of the ice machine.

Moreover, a plurality of ribs for directing cold air supplied to the ice maker are additionally formed in the hole for supplying cold air.

Preferably, the ribs are inclined at a predetermined angle relative to the vertical axis to direct cold air into the ice maker along the shortest path.

In this case, one of the ribs, which is located closest to the ice maker, has an inclination angle of 45 degrees relative to the vertical axis, the other rib, which is located farthest from the ice maker, has an inclination angle of 70 degrees relative to the vertical axis and the remaining ribs respectively have tilt angles that gradually increase from 45 to 70 degrees relative to the vertical axis as they move away from the ice maker.

Preferably, a portion of the cold air supplied to the storage compartment through the cold air outlet for the cold air passage passes into the cold air supply hole, the cold air passage being located on the ceiling of the storage compartment and extending from front to back.

In this case, the channel for the passage of cold air is inclined downward at a predetermined slope from its front end, in which an opening for the release of cold air is formed, towards its rear end near the rear end of the storage compartment, the upper side of the ice maker cover, in which an opening for cold air supply, tilted down from its rear end near the rear side of the door towards its front end and corresponds in shape to the channel for the passage of cold air, and the channel for passage I cold air and the cover of the ice maker are arranged in a position corresponding to each other in which the door closes the storage compartment, as a result of which the cold air outlet and the cold air inlet are connected to each other.

In accordance with another aspect of the present invention, there is provided an ice making apparatus for a refrigerator comprising a main body having a storage compartment and a door for selectively opening or closing a storage compartment, the ice making apparatus comprising an ice maker mounted on a rear side of the door and producing ice, and an ice hopper installed with the possibility of removal on the rear side of the door under the ice maker, and the ice hopper is located in the ice maker and transfers ice to congestion, located in the door.

The device for producing ice further comprises a mounting element mounted in the compartment, which is formed by the rear side of the door, the side surfaces of the pair of supporting ledges facing each other, and the installation ledge, and the supporting ledges are formed to protrude back from both side ends of the rear side of the door for a given length and passage in the vertical direction, and the installation ledge passes from side to side so that part of the rear side of the door between the supporting ledges protrudes t back to a predetermined length, and the installation element is made with a receiving compartment, in which the ice maker and ice hopper are installed.

At the same time, at least one exciting recess in which at least one exciting protrusion formed on the lower side of the receiving compartment is inserted is formed on the lower side of the ice hopper.

In addition, the lower side of the ice maker and the circumference of the upper end of the ice hopper are located at a distance less than the height of the pickup protrusion, the rear side of the ice hopper is located at a predetermined distance from the front side of the receiving compartment, and if the ice hopper is moved upward towards the front side of the receiving compartment in a position in which the upper end of its rear side is rotated around its lower end to be located next to the front side of the receiving section Ia, catching protrusion is disengaged from the gripping recess, whereby the ice bin can be removed from the receiving compartment.

A circular portion may be formed at the lower end of the rear side of the ice bin, the circular portion allowing the ice bin to rotate easily around its lower end in a direction in which the upper end of its rear side is adjacent to the front side of the receiving compartment.

Preferably, a catch rib located near the upper end of the rear side of the ice hopper is formed on the front side of the receiving compartment, and if the ice hopper is rotated around its lower end in a direction in which its upper end is located at a distance from the front side of the receiving compartment, the upper end of the rear side of the ice hopper is engaged with a catch rib, thereby preventing the ice hopper from being unintentionally disconnected from the receiving compartment.

The ice making apparatus further comprises a cold air passage formed on one side of the storage compartment and supplying the ice maker with a portion of the cold air supplied to the storage compartment.

The ice-making device further comprises an ice maker cover that is removably mounted in the upper part of the receiving compartment, so that the circles of the upper and lower ends of the ice hopper are located at a predetermined distance from each other, and the ice maker cover selectively opens or closes the ice maker.

In accordance with another aspect of the present invention, there is described an ice making apparatus for a refrigerator comprising a main body having a storage compartment and a door for selectively opening or closing a storage compartment, the ice making apparatus comprising an ice maker mounted on a rear side of the door and producing ice, and a mounting element installed in the compartment, which is formed using the rear side of the door, the side surfaces of a pair of supporting ledges facing each other, installation ledge, and the supporting ledges are formed for the protrusion back from both side ends of the rear side of the door to a predetermined length and pass in the vertical direction, and the installation ledge is formed for passing from side to side so that the part of the rear side of the door between the supporting ledges protrudes back on a predetermined length, and the mounting element is made with a receiving compartment in which the ice maker is installed.

The ice making apparatus may further comprise a cold air guide device located on the rear side of the door and a guide part of the cold air supplied to the storage compartment to the ice maker.

In this case, the cold air guide device consists of two elements and extends vertically on one side of the mounting element corresponding to the front side of the receiving compartment.

Preferably, the mounting element comprises a front plate with a rear side brought into contact with the rear side of the door between the support ledges, two side plates located at both side ends of the front plate and having outer surfaces contacted with the side surfaces of the support ledges facing each other respectively, and a lower plate located at the lower ends of the front and side plates and having a lower side brought into contact with the upper side of the installation ledge.

The locking recesses open downward into which the locking protrusions are inserted are formed on the outer surfaces of both side plates, respectively, the locking protrusions being formed in their respective positions on the side surfaces of the support ledges facing each other and the through hole through which the fastener passes, fixed in the mounting hole formed on the upper side of the mounting protrusion, is formed in the lower plate.

A pair of mounting brackets, in each of which a through hole can be formed, are located on one side of the ice maker, and the front plate is formed with a pair of mounting holes in which fasteners are passed through the through holes of the mounting brackets.

The device for producing ice further comprises an ice maker cover that is removably mounted on the rear side of the door for selectively opening or closing the ice maker.

The device for producing ice further comprises an ice hopper that is removably mounted in the receiving compartment under the ice maker, the ice hopper storing ice produced in the ice maker and transferring it to a dispenser located in the door.

In accordance with another aspect of the present invention, there is provided an ice making apparatus for a refrigerator comprising a main body having a storage compartment and a door for selectively opening or closing a storage compartment, the ice making apparatus comprising an ice maker mounted on a rear side of the door and producing ice, a channel for the passage of cold air, located on one side of the storage compartment and supplying the ice maker with part of the cold air supplied to the department storage, an ice maker cover that is removably mounted on the rear side of the door to selectively open or close the ice maker, and an ice hopper that is removably mounted on the rear side of the door under the ice maker, wherein the ice hopper stores ice produced in the ice maker, and transfers it to the dispenser located in the door.

When this channel for the passage of cold air extends in its longitudinal direction and is located on the ceiling of the storage compartment so that it passes in the direction from front to back, while the hole for the inlet of cold air into which cold air is supplied passing in the storage compartment is formed at the rear end of the channel for the passage of cold air, and an opening for the release of cold air for supplying cold air to the ice machine is formed at the front end of the channel for the passage of cold air.

An opening for supplying cold air to which cold air is supplied for supplying to the ice machine is formed on the upper side of the cover of the ice machine.

The front end of the cold air passage in which the cold air outlet is formed, and the upper side of the ice maker cover in which the cold air supply hole is formed, are formed to mate with each other in a position in which the door closes the storage compartment.

A plurality of ribs for guiding the cold air supplied to the ice machine are further formed in the cold air supply opening.

The ribs are inclined at a predetermined angle relative to the vertical axis to direct cold air into the ice maker along the shortest path.

The device for ice production further comprises a mounting element mounted in the compartment, which is formed by the rear side of the door, the side surfaces of the pair of supporting ledges facing each other, and the installation ledge, and the supporting ledges are formed to protrude back from both lateral ends of the rear side of the door to a predetermined length and passage in the vertical direction, and the installation ledge is formed for passing from side to side so that part of the back side of the door between the protruding ledges protrudes back to a predetermined length, and the installation element is made with a receiving compartment, which is installed ice maker and ice bin.

Preferably, a cold air guide for directing cold air to the ice maker is further mounted on the mounting member, the cold air being supplied by the cold air passage and the ice maker cover.

Advantage effects

According to the ice making apparatus of the present invention, made in this way, the advantage is provided that the storage space of the refrigerator can be fully utilized and the smell of food products can be prevented from penetrating the ice during the ice making process.

Description of drawings

Figure 1 is a perspective view illustrating a refrigerator in which a preferred embodiment of an ice making apparatus for a refrigerator in accordance with the present invention is used;

figure 2 depicts a perspective view with a spatial separation of elements, illustrating the main part of a preferred variant implementation of the present invention;

FIG. 3 is a side sectional view illustrating a channel for passing cold air, which is a preferred embodiment of the present invention;

4 is a perspective view with a spatial separation of elements illustrating another main part of a preferred embodiment of the present invention;

5 is a side sectional view illustrating an ice maker cover representing a preferred embodiment of the present invention;

FIG. 6 is a plan view illustrating the lower side of an ice bin, which is a preferred embodiment of the present invention;

7 is a side sectional view illustrating a cold air passage process and an ice supply process in a preferred embodiment of the present invention, and

Fig. 8 is a side sectional view illustrating a main part of a refrigerator equipped with a conventional ice making apparatus.

Preferred Embodiment of the Present Invention

Below, preferred embodiments of an ice making apparatus for a refrigerator in accordance with the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view illustrating a refrigerator in which a preferred embodiment of an ice making apparatus for a refrigerator in accordance with the present invention is used; FIG. 2 is a perspective exploded view illustrating a main part of a preferred embodiment of the present invention; FIG. 3 is a side sectional view illustrating a cold air passage, which is a preferred embodiment of the invention. Of the present invention, FIG. 4 is a perspective view of a spatially separated element illustrating another main part of a preferred embodiment of the present invention, FIG. 5 is a side sectional view illustrating an ice maker cover representing a preferred embodiment of the present invention, and FIG. 6 depicts a top view illustrating the underside of an ice bin, which is a preferred embodiment of the present invention .

As illustrated in the drawings, the freezer 121 and the refrigerator 129 are located in the main body 100 of the refrigerator so that they are adjacent. In addition, the outer case 111 forms the appearance of the main body 100. The inner case 113, which forms the inner part of the main body 100, is connected to the inner part of the outer case 111. That is, the freezer 121 and the refrigeration chamber 129 are formed by the inner case 113.

The freezer door 131 and the refrigerator door 139 are mounted on the main body 100. Each of the freezer door 131 and the refrigerator door 139 is rotatably mounted at one end thereof so that its front end moves in the longitudinal direction. The freezer door 131 and the refrigerator door 139 are used to selectively open or close the freezer 121 and the refrigerator 129, respectively.

In addition, the freezer door 131 and the refrigerator door 139 are equipped with a dispenser 131D and a home bar 139H, respectively. Dispenser 131D allows the user to receive water or ice from the outside without opening the freezer door 131. Home bar 139H allows the user to get the drink from the outside without opening the door 139 of the refrigerator.

The wall 123 is located in the freezer 121. In this case, the wall 123 is located so that its rear side is located at a predetermined distance from the rear side of the freezer 121. In addition, the heat exchange chamber 124 (see Fig. 7) in which the evaporator is installed ( not shown), a blower fan (not shown), and the like, is formed between the rear side of the freezer 121 and the rear side of the wall 123.

A plurality of cold air discharge openings 123A and 123B (see FIG. 2) are formed in the wall 123. Cold air discharge openings 123A and 123B are elements through which cold air formed as a result of heat exchange in the evaporator is supplied to the freezer 121 through actuating the blower fan. Holes 123A and 123B for the release of cold air are formed in the wall 123 so that they are located in a vertical or horizontal direction at a distance from each other.

As illustrated in detail in FIG. 2, a mounting rib 125 is formed on the front side of the wall 123 above the cold air outlet 123A, which is located in the uppermost part of the freezer chamber 121, among the cold air vents 123A and 123B. The mounting rib 125 projects from the front side of the wall 123 in the forward direction and is formed to extend from side to side. Moreover, it is preferable that both ends of the mounting ribs 125 were round and inclined downward.

The ceiling of the freezer 121 is formed with a pair of fixing holes 126 and a fixing recess 127. The fixing holes 126 and the fixing recess 127 of the freezer 121 are formed at the front end of the ceiling of the freezer 121 corresponding to the front side of the hole 123A and the fixing rib 125. It is preferable that the fixing a recess 127 of the freezer 121 was formed between the mounting holes 126 of the freezer 121.

The ceiling of the freezer 121 comprises a channel 141 for passage of cold air. The cold air passage 141 causes a portion of the cold air exiting through the cold air outlet 123A to pass towards the rear side of the freezer door 131 and is thus used essentially to supply cold air to the ice maker 161, which will described below.

с открытой верхней частью. Следовательно, канал, в котором, по существу, проходит холодный воздух, поданный в льдогенератор 161, образован при помощи потолка морозильной камеры 121 и внутренней стороны канала 141 для прохождения холодного воздуха.To this end, the channel 141 for the passage of cold air extends in the longitudinal direction and has a cross section in the form

with open top. Therefore, a channel in which essentially cold air flows into the ice maker 161 is formed by the ceiling of the freezing chamber 121 and the inside of the channel 141 for the passage of cold air.

As illustrated in FIG. 3, 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 cold air passage 141 is tilted at a predetermined slope downward from its front end to its rear end. This provides an effective supply of cold air by reducing the cross section of the channel formed by the ceiling of the freezer chamber 121 and the inside of the channel 141 for the passage of cold air, when it passes from the hole 123A for the release of cold air. In addition, 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.

Channel 141 for the passage of cold air is installed on the ceiling of the freezer 121 and runs in the direction from front to back. Meanwhile, the rear end of the cold air passage 141 is brought into contact with the front side of the wall 123, so that the cold air outlet 123A is located in the cold air passage. In addition, the front end of the cold air passage 141 is located adjacent to the front end of the ceiling of the freezer 121.

A cold air inlet 143 is formed at the rear end of the cold air passage 141. The cold air inlet 143 is used as an inlet through which cold air exiting through the cold air outlets 123A is supplied to the cold air passage 141.

In addition, a cold air outlet 144 is formed at the front end of the cold air passage 141. The cold air outlet 144 is used as an outlet through which cold air supplied to the cold air passage 141 through the cold air inlet 143 exits and passes into the cold air outlet 175 of the ice maker cover 171, which will be described below. However, as described above, the height of the cold air passage 141 gradually increases from its front end to its rear end. Therefore, the cold air outlet 144 is tilted down toward the front side of the freezer 121.

In addition, an additional cold air outlet 145 is formed at the rear end of the cold air passage 141 near the cold air inlet 143. An additional cold air outlet 145 is used to discharge part of the cold air that is supplied to the channel 141 for the passage of cold air through the cold air outlet 123A to the freezer 121.

The supporting rib 146 is located on the inner side of the rear end of the channel 141 for the passage of cold air. The supporting rib 146 is formed at the rear end of the channel 141 for the passage of cold air and passes from side to side. In addition, in a position in which the cold air passage 141 is mounted on the ceiling of the freezer 121, the lower portion of the rib 146 is supported on the upper side of the mounting rib 125.

In addition, a pair of mounting protrusions 147 are formed on the inner side of the front end of the cold air passage 141 corresponding to the front side of the cold air outlet 144. The fastening tabs 147 protrude upward from the inner side of the front end of the cold air passage 141 so that the front ends of the fastening tabs are brought into contact with the ceiling of the freezer 121. The fastening tabs 147 are laterally spaced apart from each other. In addition, a through hole 147A through which the fastening screw S1 for fastening in the fastening hole 126 of the freezer 121 passes is formed in each of the fastening projections 147.

A fastening protrusion 148 is formed on the inner side of the front end of the cold air passage 141 between the fastening protrusions 147. The fastening protrusion 148 projects upward from the inner side of the front end of the cold air passage 141. In this case, the fastening protrusion 148 is formed longer than the fastening protrusions 147 and, thus, is inserted into the mounting recess 127 of the freezer 121.

As illustrated in detail in FIG. 4, the outer door 133 defines a front appearance of the freezer door 131. In addition, the door lining 134, forming the rear appearance of the freezer 131, is connected to the inner side of the outer door 133.

In addition, supporting ledges 135 are formed respectively at both lateral ends of the rear side of the freezer door 131. A portion of the door lining 134 protrudes backward at a predetermined length so that each abutment step 135 is formed to extend in a vertical direction. A plurality of locking protrusions 135A and 135B are formed in their respective positions on the side surfaces of the support ledges 135 facing each other.

In addition, an installation ledge 136 is formed on the rear side of the freezer 131. The installation ledge 136 is formed in such a way that a portion of the door liner 134 between the supporting ledges 135 projects back to a predetermined length. In this case, the installation ledge 136 protrudes relatively further than the reference ledge 135. In addition, the installation ledge 136 is essentially formed for mounting the dispenser 131D.

A connecting hole 136A is formed on the installation ledge 136. The connecting hole 136A of the installation ledge 136 is formed so that a portion of the door liner 134 forming the installation ledge 136 is cut off. The connecting hole 136A of the mounting ledge 136 is for supplying ice produced in the ice maker 161 to the dispenser 131D. In addition, a pair of mounting holes 136B are formed at the front end of the installation ledge 136.

In addition, the rear side of the door 131 of the freezer is formed with a connecting ledge 137. The connecting ledge 137 is formed to pass from side to side so that part of the door lining 134 protrudes back a predetermined length to connect the upper ends of the supporting ledges 135.

A mounting member 151 is mounted on the rear side of the freezer door 131. The mounting element 151 is formed in the form of a polyhedron with an open part and has a predetermined receiving compartment 151S formed therein. That is, the mounting member 151 comprises a front plate 153 forming the front surface of the receiving compartment 151S, two side plates forming two side surfaces of the receiving compartment 151S, and a lower plate 157 forming the lower surface of the receiving compartment 151S. The rear side of the front plate 153 is brought into 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 are respectively brought into contact with the side surfaces of the supporting ledges 135 facing each other. In addition, the lower side of the lower plate 157 is brought into contact with the upper side of the installation ledge 136.

The front side of the receiving compartment 151S includes guides 153A for cold air. Cold air guides 153A are designed to direct part of the cold air that is supplied to the ice maker 161 via the cold air passage 141 to the space between the receiving compartment 151S and the ice maker 161. The cold air guides 153A are made in pairs that are installed in the upper part of the front side of the receiving compartment 151S, which extend in the vertical direction and are located at a predetermined distance from each other in the transverse direction. In the illustrated embodiment, the cold air guides 153A are formed so that a portion of the front plate 153 forming the front side of the receiving compartment 151S protrudes backward.

In addition, a pair of mounting holes 153B are formed on the front side of the receiving compartment 151S. Preferably, the mounting holes 153B are formed in the upper part of the front side of the receiving compartment 151S corresponding to one side of the cold air guide 153A.

In addition, a gripping rib 153C is formed on the front side of the receiving compartment 151S. The gripping rib 153C is formed to extend horizontally from the upper ends of both side plates 155. In the position in which the ice hopper 181, which will be described later, is installed in the receiving compartment 151S, the gripping rib 153C is located on the path that is formed by the upper end of the hopper 181 for ice during the rotation of the upper end of the ice hopper 181 around its lower end in a direction in which the upper end is located at a distance from the front side of the receiving compartment 151S.

Although not shown, a predetermined space in which the various elements for driving the dispenser 131D and the like are located is provided between the rear side of the freezer door 131 and the rear side of the setting element 151, i.e. the back side of the front plate 153. Since such a space is not related to the object of the present invention, a detailed description thereof will be omitted.

, открытой вниз. Фиксирующий выступ 135A опорного уступа 135B вставляется в фиксирующую выемку 155A установочного элемента 151. Следовательно, если установочный элемент 151 перемещается вниз сверху, фиксирующий выступ 135A опорного уступа 135B вставляется в фиксирующую выемку 155A установочного элемента 151, и, таким образом, установочный элемент 151 прикрепляется к задней стороне двери 131 морозильной камеры.The locking recesses 155A are formed on the outer sides of both sides of the mounting member 151 corresponding to the outer sides of both sides of the receiving compartment 151S, that is, on the outer sides of the side plates 155, respectively. The locking recess 155A of the mounting element 151 is formed in an approximate form

open down. The locking protrusion 135A of the bearing step 135B is inserted into the fixing recess 155A of the mounting member 151. Therefore, if the mounting member 151 is moved downward, the locking protrusion 135A of the bearing shoulder 135B is inserted into the fixing recess 155A of the mounting member 151, and thus, the mounting member 151 is attached to rear side of door 131 of the freezer.

A connecting hole 157A is formed in the bottom plate 157 corresponding to the lower side of the receiving compartment 151S. The connecting hole 157A of the mounting member 151 is connected to the connecting hole 136A of the mounting ledge 136. Therefore, ice passing through the connecting hole 157A of the mounting ledge 151 and the connecting hole 136A of the mounting ledge 136 is obtained externally through the dispenser 131D. The connecting hole 157A of the mounting member 151 is formed so that a portion of the bottom plate 157 is cut off.

In addition, a pair of through holes 157B is formed in the lower plate 157 corresponding to the front end of the lower side of the receiving compartment 151S. The through hole 157B of the mounting member 151 is a hole through which the fastening screw S2 is inserted to secure the mounting ledge 136 in the mounting hole 136B. In addition, a pair of gripping protrusions 157C are formed on the lower plate 157 corresponding to the front end of the lower side of the receiving compartment 151S. Each of the gripping protrusions 157C is formed so that a portion of the bottom plate 157 protrudes upward.

An ice maker 161 is installed at the top of the receiving compartment 151S. An ice maker 161 is used to make ice, which is obtained externally through a dispenser 131D. A pair of mounting brackets 163 is located on one side of the ice maker 161. Each of the mounting brackets 163 is formed with a through hole 163A. A mounting screw S3 passing through the through hole 163A of the ice maker 161 is secured to the mounting hole 153B of the receiving compartment 151S, so that the ice maker 161 is secured to the receiving compartment 151S.

The ice maker cover 171 is removably mounted at the top of the receiving compartment 151S. The ice maker cover 171 is used to selectively open or close the ice maker 161 and transfers cold air supplied through the cold air passage 141 to the ice maker 161. Therefore, in the position in which the ice maker cover 171 is installed in the receiving compartment 151S, the ice maker 161 essentially located in the cover 171 of the ice maker.

, открытой вниз. Крепежный выступ 135B опорного уступа 135 вставляется в фиксирующую выемку 173 крышки 171 льдогенератора.The ice maker cover 171 is formed in the form of a polyhedron with an open bottom side and one open side corresponding to the rear side of the freezer 131. In addition, locking recesses 173 are formed on the outer sides of both sides of the ice maker cover 171, respectively. The locking recess 173 of the cover 171 of the ice machine is formed in the form

open down. The mounting protrusion 135B of the support ledge 135 is inserted into the fixing recess 173 of the ice cover 171 of the ice maker.

In addition, as illustrated in FIG. 5, a mounting hook 174 is formed on the rear side of the ice maker cover 171, which is brought into contact with the front side of the receiving compartment 151S. The mounting hook 174 is formed with a predetermined elasticity, so that the ice maker cover 171 is elastically fixed to the connecting ledge 137 in the position in which the ice maker cover 171 is mounted in the receiving compartment 151S.

The height of the cover 171 of the ice machine gradually increases from its rear end, located next to the rear side of the door 131 of the freezer in the direction of its front end. Therefore, the upper side of the ice maker cover 171 is tilted downward at the same angle as the cold air passage 141 from its rear end located adjacent to the rear side of the freezer door 131 towards its front end. That is, the cold air passage 141 and the ice maker cover 171 are formed to interface with each other. Therefore, in the position in which the freezer door 131 closes the freezer 121, the cold air passage 141 and the ice maker cover 171 are arranged to mate with each other in shape.

An aperture 175 for supplying cold air is formed on the upper side of the ice maker cover 171. The cold air supply hole 175 is used as an inlet to which cold air is supplied through the cold air outlet 144 for cold air passage 141. In the position in which the freezer door 131 closes the freezer 121, the cold air inlet 175 is formed in the position in which it connects to the cold air inlet 143 and has a size and shape corresponding to the cold air inlet 143.

The cold air supply hole 175 comprises a plurality of ribs 176. The ribs 176 are used to direct cold air, which is supplied through the cold air supply hole 175, to the ice maker 161. Each of the ribs 176 is inclined at a predetermined angle relative to the vertical axis to direct cold air in the direction to the ice maker 161 along the shortest path. Therefore, the angle of inclination of the ribs 176 varies depending on the distance to the ice maker 161 and the position relative to it.

For example, among the ribs 176, the first rib 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 ribs 176, the seventh rib 176G, furthest from the ice maker 161, has an angle of inclination of 70 degrees with respect to the vertical axis. The second to sixth ribs 176B-176F located between the first rib 176A and the seventh rib 176G respectively have tilt angles that gradually increase from 45 to 70 degrees with respect to the vertical axis as they move away from the ice maker 161. That is, the second to sixth ribs 176B-176F have tilt angles of 49, 53, 57, 61, and 65 degrees, respectively, with respect to the vertical axis.

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

As shown in FIG. 4, an ice hopper 181 is removably mounted to the bottom of the receiving compartment 151S under the ice maker 161 and the ice maker cover 171. Ice produced in an ice maker 161 is stored in an ice hopper 181. In addition, the ice hopper 181 conveys the stored ice to the dispenser 131D so that the user can receive ice from the outside.

The ice hopper 181 is formed in the shape of a polyhedron having the same cross section as the ice maker cover 171. In addition, a hopper-shaped storage compartment 181S with an open top is formed in the ice hopper 181. The storage compartment 181S stores ice produced in an ice maker 161.

As illustrated in FIG. 6, an ice supply hole 183 is formed on the lower side of the ice hopper 181. An ice supply port 183 is used as an outlet for transferring ice stored in the storage compartment 181S to the dispenser 131D. That is, ice stored in the storage compartment 181S is transferred to the dispenser 131D through the ice supply hole 183, the connecting hole 157A of the mounting member 151, and the connecting hole 136A of the mounting shoulder 136.

A device for supplying ice stored in the storage compartment 181S through the ice supply hole 183 is provided in the ice hopper 181. In addition, a device for crushing ice in accordance with the choice of the user is provided in the ice hopper 181.

In addition, a pair of gripping recesses 184 are formed on the underside of the ice hopper 181. The gripping protrusions 157C are respectively inserted into the gripping recesses 184. Therefore, the ice hopper 181 does not spontaneously move in the longitudinal direction of the receiving compartment 151S in a position in which the ice hopper 181 is installed in the receiving compartment 151S.

In addition, in the position in which the ice hopper 181 is installed in the receiving compartment 151S, the circumference of the upper end of the ice hopper 181 is located at a predetermined distance from the lower side of the ice maker 161 and the circumference of the lower end of the lid 171 of the ice maker. In this case, the gap between the circumference of the lower end of the cover 171 of the ice maker and the lower side of the ice maker 161 and the circumference of the upper end of the ice hopper 181 is made relatively less than the height of the catching protrusion 157C. In addition, the rear side of the ice hopper 181 is located at a predetermined distance from the front side of the receiving compartment 151S.

This should prevent spontaneous detachment of the ice hopper 181 from the receiving compartment 151S. That is, in the position in which the ice maker 161 and the ice maker cover 171 are installed in the receiving compartment 151S, the ice hopper 181 cannot move in the vertical direction. Furthermore, since the pickup protrusion 157C is inserted into the pickup recess 184, the ice hopper 181 also cannot move in the longitudinal direction or in the left and right directions.

Therefore, to detach the ice hopper 181 from the receiving compartment 151S, the ice hopper 181 is moved to tilt upward to a position where the upper end of its rear side is rotated and adjacent to the front side of the receiving compartment 151S, and then the gripping protrusions 157C are removed from the gripping recesses 184. In this case, the ice hopper 181 is moved until the upper end of its rear side is brought into contact with one part of the front side of the receiving compartment 151S and, more specifically, the part located p poison with an edge formed by the rear end of the lower side of the ice maker 161 and the front side of the receiving compartment 151S. In addition, the ice hopper 181 is moved horizontally to be placed at a distance from the front side of the receiving compartment 151S, whereby the ice hopper 181 can be removed from the receiving compartment 151S. In addition, the ice hopper 181 may be installed in the receiving compartment 151S in the reverse order.

A circular portion 185 is formed at the lower end of the rear side of the ice hopper 181. The circular portion 185 makes it easy to rotate the ice hopper 181 around its lower end in a direction in which the upper end of the rear side of the ice hopper 181 is adjacent to the front side of the receiving compartment 151S, so that the ice hopper 181 is installed in or removed from the receiving compartment 151S him.

As the door 131 of the freezer rotates, an impact load may occur. However, since the lower end of the ice hopper 181 is limited in movement due to the gripping protrusion 157C and the gripping recess 184, the ice hopper 181 rotates around its lower end. That is, the ice hopper 181 rotates around its lower end in a direction in which the upper end of the ice hopper 181 is adjacent to or adjacent to the front side of the receiving compartment 151S.

However, the ice hopper 181 is set so that its rear side is positioned at a predetermined distance from the front side of the receiving compartment 151S. Therefore, during the rotation of the freezer door 131, although the ice hopper 181 rotates around its lower end in a direction in which its upper end is adjacent to the front side of the receiving compartment 151S, the ice hopper 181 is not disconnected from the receiving compartment 151S.

In addition, the upper end of the rear side of the ice hopper 181 is located adjacent to the catch rib 153C. Therefore, although the ice hopper 181 rotates around its lower end in a direction in which its upper end is adjacent to the front side of the receiving compartment 151S, the upper end of the rear side of the ice hopper 181 is engaged with the catch rib 153C, and thus the hopper 181 for ice does not spontaneously disconnect from the receiving compartment 151S.

In addition, the ice hopper 181 comprises an inspection window 187. The inspection window 187 of the ice hopper 181 is made of transparent or translucent material, similar to the inspection window 177. In addition, the user can determine the amount of ice stored in the storage compartment 181S through the observation window 187 covers 171 ice makers.

Below will be described in detail the operation of the device for producing ice for a refrigerator in accordance with a preferred embodiment of the present invention with reference to the accompanying drawings.

7 is a side sectional view illustrating a cold air passage process and an ice supply process in a preferred embodiment of the present invention.

As shown in the drawing, when the blower fan is driven, cold air that is generated as a result of heat exchange in an evaporator installed in the heat exchanger chamber 124 passes into the freezer chamber 121 through openings 123A and 123B for releasing cold air. Then, the cold air passing through one, for example, the cold air exhaust port 123A from the cold air vents 123A and 123B, is supplied to the cold air passage 141 through the cold air inlet 143.

Part of the cold air that has passed into the channel 141 for the passage of cold air is supplied to the freezer through an additional hole 145 for the release of cold air. Then, the remaining cold air passing into the channel 141 for the passage of cold air is supplied to the ice maker 161 located in the cover 171 of the ice maker through the hole 144 for the release of cold air and the hole 175 for supplying cold air.

However, in the position in which the freezer 121 is closed by the freezer door 131, the cold air passage 141 and the ice maker cover 171 are arranged to mate with each other in shape. Therefore, the effect is minimized when the cold air passing into the cold air supply opening 175 through the cold air discharge opening 144 exits to the outside, i.e. to the interior of the freezer 121. In addition, cold air supplied to the ice maker 161 through the cold air supply hole 175 is guided along the shortest path with ribs 176. Therefore, cold air is sent to supply the ice maker 161 more efficiently with ribs 176.

In addition, part of the cold air directed by the ribs 176 passes through the gap between the front side of the receiving compartment 151S and the ice maker 161 through the cold air guides 153A and then is supplied to the ice maker 161. Therefore, in addition, cold air is uniformly fed to one side of the ice maker 161 corresponding to the opposite side of the cold air inlet 175.

The ice produced in the ice maker 161 is stored in the storage compartment 181S for the ice hopper 181. The ice is then fed out through the dispenser 131D by manipulation of the user. In this case, the ice can be broken into pieces of a given size in accordance with the choice of the user.

Those skilled in the art will understand that various modifications are possible within the scope of the technical nature of the present invention. The scope of the present invention should be determined by the attached claims.

Industrial applicability

According to an ice making apparatus for a refrigerator of the present invention, constructed in this way, the following advantages can be provided.

First of all, in the present invention, an ice maker is mounted on the rear side of the freezer door. Therefore, it is possible to prevent a reduction in the volume of the storage compartment of the refrigerator, more specifically the freezer, thereby allowing much more products to be stored in the freezer.

In addition, in accordance with the present invention, in a position in which 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 cold air passage, thereby producing ice. Therefore, during the production of ice in an ice maker, it is possible to minimize the penetration of the odor of other products stored in the freezer into the ice, as a result of which ice can be produced under more hygienic conditions.

In addition, in accordance with the present invention, an ice hopper that stores ice produced in the ice maker and transfers it to the dispenser is also mounted on the rear side of the freezer door. Therefore, it is possible to minimize the penetration of the odor of other products into the ice in the position in which the ice is stored in the ice hopper, and at the same time reduce the time required to supply ice through the dispenser.

Claims (45)

1. A refrigerator comprising a main body of a refrigerator (10) having a storage chamber, a door (131) rotatably mounted on a main body (10), an evaporator mounted in a part of the main body and generating cold air, and a cold supply fan the air formed by the evaporator into the storage chamber, characterized in that the refrigerator further comprises:
supporting ledges (135) that protrude from both side ends of the rear side of the door,
an ice maker (161) located in the upper part of the space formed between the supporting ledges (135),
an ice hopper (161) containing a circular portion (185) at the rear end of its lower part, which allows for the installation of an ice hopper on the rear side of the door at a predetermined distance,
installation ledge (136), passing back from the door to a predetermined length between the supporting ledges (135) and beyond them, for receiving the ice hopper,
wherein the installation ledge (136) has a connecting hole (136A) through which the delivery of ice stored in the ice hopper is carried out outside the door. 2. The refrigerator according to claim 1, in which a dispenser (131D) is provided under the installation ledge (136). 3. The refrigerator according to claim 1, in which the ice hopper is removably mounted on the door. 4. The refrigerator according to claim 1, in which the lower surface of the hopper contains a hole (183) for supplying ice in communication with the connecting hole. 5. The refrigerator according to claim 1, comprising a mounting element (151) in said space, to which an ice maker and an ice hopper are attached. 6. The refrigerator according to claim 5, in which the installation element is made for horizontal installation on it with the possibility of removing the ice hopper. 7. The refrigerator according to claim 5, in which the lower surface of the installation element is fixed mounted on the installation ledge. 8. The refrigerator according to claim 5, further comprising at least one locking protrusion (136A), wherein at least one fixing recess (155A) is formed on the side of the mounting element for receiving the mounting protrusion. 9. The refrigerator according to claim 1, in which the ice hopper has a viewing window (187). 10. The refrigerator according to claim 1, wherein the exciting recesses are formed on the underside of the ice hopper. 11. A refrigerator comprising a main body (10) having a storage chamber, a door (131) rotatably mounted on the main body (10), an evaporator installed in a part of the main body and generating cold air, and a fan supplying cold air formed by the evaporator into the storage chamber, characterized in that the refrigerator further comprises:
an ice maker (161) mounted on the rear side of the door,
an ice hopper (181) located below the ice maker for storing ice formed by the ice maker, and
an installation element (151) located on the rear side of the door and receiving an ice hopper from the front side,
however, the installation element has in its predetermined part means for preventing spontaneous movement of the ice hopper and a connecting hole (157A) for dispensing ice stored in the hopper outside the door. 12. The refrigerator according to claim 11, in which the installation element and the rear side of the door formed a space for accommodating components for controlling the dispenser (131D). 13. The refrigerator according to claim 11, in which the ice maker is attached to the upper front part of the installation element. 14. The refrigerator according to claim 11, in which the mounting element comprises a front plate (153), side plates (155) and a lower plate (157), while a connecting hole is formed in the lower plate. 15. The refrigerator according to 14, in which the exciting protrusion is formed at the front end of the lower plate. 16. The refrigerator according to claim 14, further comprising an exciting rib (153c) protruding from the upper end of the side plate, while the exciting fin is located near the upper end of the ice hopper. 17. The refrigerator according to claim 11, further comprising a cold air guide (153A) located on the front side of the installation member so as to direct part of the cold air supplied to the ice maker to the ice bin. 18. The refrigerator according to claim 17, wherein the cold air guide protrudes downward between the ice maker and the ice bin. 19. The refrigerator according to claim 17, wherein a pair of cold air guides are provided located at a predetermined distance from each other to form a cold channel
air. 20. The refrigerator according to claim 17, in which a pair of mounting brackets (163) is located on one side of the ice maker, and a pair of mounting holes (153B) are formed on the front side of the receiving compartment of the mounting element corresponding to one side of the cold air guide 153A, wherein the ice maker is fixed to the mounting element by fasteners passing through the mounting brackets and mounting holes. 21. The refrigerator according to claim 11, in which the connecting hole communicates with the hole (183) for supplying ice formed on the lower surface of the ice hopper. 22. The refrigerator according to 11, in which the means for preventing spontaneous movement of the ice bin contains at least one gripping protrusion (157C). 23. The refrigerator according to claim 11, containing the installation ledge (136), the upper surface of which interacts with the surface of the lower end of the installation element. 24. A refrigerator comprising a refrigerator main body (10) having a storage chamber, a rotatable door (131) mounted on the main body (10), an evaporator installed in a part of the main body and generating cold air, and a cold supply fan air formed by the evaporator into the storage chamber, characterized in that the refrigerator further comprises:
a pair of supporting ledges (135), which protrude from the side edges of the rear side of the door, and form a predetermined space between them,
an ice maker (161) located at the top of said space,
an ice hopper (181) located below the ice maker,
an ice maker cover (171) located on top of the ice maker and containing an opening (175) for inlet of cold air supplied from the evaporator to the ice maker. 25. The refrigerator according to paragraph 24, further comprising a connecting ledge connecting the upper ends of the supporting ledges. 26. The refrigerator according to paragraph 24, comprising a mounting hook (174) formed on the rear of the ice maker cover with the possibility of engagement with a connecting ledge. 27. The refrigerator according to paragraph 24, further comprising a locking protrusion (135 V) extending from the inner surface of the support ledges and a locking recess (173) formed on the outside of the ice maker cover with the possibility of receiving a locking protrusion therein. 28. The refrigerator according to paragraph 24, in which the cover of the ice maker is removably mounted on the rear of the door. 29. The refrigerator according to paragraph 24, in which the lower end of the cover of the ice maker is at a predetermined distance from the upper end of the ice hopper. 30. The refrigerator according to paragraph 24, the upper side of the cover of the ice maker is inclined downward at a predetermined angle. 31. The refrigerator according to paragraph 24, in which the hole for the inlet of cold air contains many ribs for directing the flow of cold air. 32. The refrigerator according to p, in which the ribs are inclined relative to the ice maker. 33. The refrigerator according to p, in which the angles of inclination of the ribs increase relative to the vertical axis as the ribs are removed from the ice maker. 34. The refrigerator according to paragraph 24, in which the cover of the ice maker is connected to the supporting ledges. 35. The refrigerator according to paragraph 24, in which the front of the ice maker is in front at a predetermined distance from the front of the ice maker. 36. A refrigerator comprising a main body of a refrigerator (10) having a storage chamber, a door (131) rotatably mounted on a main body (10), an evaporator mounted in a part of the main body and generating cold air, and a cold supply fan the air formed by the evaporator into the storage chamber, characterized in that the refrigerator further comprises:
supporting ledges (135) that protrude from the lateral edges of the door lining, while the supporting ledges extend vertically along the door lining,
an ice maker (161) located in the upper part of the space formed between the supporting ledges,
an ice hopper (181) horizontally attached to the door with the possibility of removal and mounted on the bottom of the ice maker,
an ice maker cover (171) having an opening (175) for cold air inlet towards the ice maker, the lid (171) being removably mounted on the door lining (134),
channel (141) for cold air, transmitting cold air supplied from the evaporator to the ice maker. 37. The refrigerator according to clause 36, in which the upper surface of the cover of the ice maker has the same slope as the front end of the channel of cold air for pairing with each other. 38. A refrigerator according to claim 36, wherein the cold air duct is provided with an opening (144) for releasing cold air at the front end. 39. The refrigerator according to clause 36, in which the channel for cold air has an opening (143) for the intake of cold air at the rear end for the intake of cold air supplied by the evaporator. 40. The refrigerator according to clause 36, in which the channel for cold air contains an additional hole (145) for cold air at a given location on its lower surface. 41. The refrigerator according to clause 36, in which the channel for cold air contains fasteners protruding from its inner side, while the channel for cold air is attached to the ceiling of the storage chamber by means of fasteners. 42. The refrigerator according to clause 36, in which the lower part of the channel for cold air is tilted down to its rear end. 43. The refrigerator according to claim 36, wherein the plurality of ribs are mounted at a predetermined distance from each other in the cold air inlet. 44. The refrigerator according to item 43, wherein the plurality of ribs are tilted so that cold air is directed to the ice maker. 45. The refrigerator according to claim 36, further comprising a mounting hook (174) extending from the rear of the ice maker cover for flexible attachment to the rear of the door.

Images