KR20040067645A - Ice maker - Google Patents

Abstract

PURPOSE: An ice maker is provided to exactly separate ice by pushing the side of the ice put in an ice-making unit with an ice-separating unit of an ice-separating lever when a lever unit of the ice-separating lever is hung to a hanging member and moved. CONSTITUTION: An ice maker is composed of a pair of pulleys(10a,10b) separated from each other; a driving unit for rotating the pulleys; an ice-making conveyor(30) arranged with a plurality of ice-making units(31a) formed concavely to contain water and wound around the pulleys; an ice-separating lever(50) movably hinge-combined to the ice-making unit to separate the ice from the ice-making unit; and a hanging member(60) for moving the ice-separating lever. The ice-separating lever comprises an ice-separating unit extended into the ice-making unit and supported to the side of the ice and a lever unit protruded outside the ice-making unit and hung to the hanging member.

Description

Ice maker {ICE MAKER}

The present invention relates to an ice maker, and more particularly to an ice maker that can efficiently perform freezing and ice.

Generally, an ice maker is installed inside a refrigerator or a vending machine, and is an apparatus for manufacturing ice by receiving water.

Conventional ice makers are provided with a drive pulley and a driven pulley which are spaced apart from a predetermined distance, and an ice making conveyor provided with a plurality of ice making units wound around the drive pulley and the driven pulley. In addition, a heater is provided inside the ice making conveyor to heat the ice making unit located below the ice making units provided in the ice making conveyor to ice the ice frozen in the ice making unit from the ice making unit.

Therefore, when ice freezes on the ice making unit of the ice making conveyor located on the upper side, the ice making conveyor is moved by the driving pulley and the driven pulley to move the ice making unit where the ice is frozen downward, and then applies power to the heater to generate the heater. The ice is iced from the ice making unit by the heat.

By the way, even though the ice maker melts the contact surface with the ice making unit by applying heat to the ice making unit disposed under the heater for the ice, the ice does not escape from the ice making unit due to the surface tension of the water. There is a problem that there is a possibility.

The present invention has been made to solve such a problem, and an object of the present invention is to provide an ice maker that can more accurately ice the ice from the ice making conveyor.

1 is a perspective view showing the configuration of an ice maker according to the present invention.

2 is a side view of an ice maker according to the present invention.

3 is a schematic view showing the operation of the ice-making apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10a, 10b: pulley 11: support bracket

12: transfer groove 20: drive device

30: ice making conveyor 31: tray cell

31a: ice making unit 31b: transfer protrusion

31c: mounting portion 40: heater

50: moving lever 60: locking member

70: fixing bracket 80: storage tray

90: water pipe

The icemaker according to the present invention for achieving the above object, a pair of pulleys spaced apart from each other, a drive device for rotating the pair of pulleys, and a plurality of icemakers are provided concave to contain water and the It is provided with an ice making conveyor which is wound around a pair of pulleys, an ice making lever hinged to the ice making unit to rotate and ice to be iced from the ice making unit, and a locking member which causes the ice making lever to rotate.

In addition, the ice lever includes an ice portion extending into the ice making unit and supported on a side surface of the ice, and a lever portion protruding outside the ice making unit to be caught by the locking member.

In addition, the weight of the ice portion is formed to be relatively large compared to the weight of the lever portion.

In addition, the inside of the ice making conveyor is provided with a heater for applying heat to the ice making conveyor portion facing the ice making unit downward.

In addition, the locking member is provided below the ice making conveyor in which the heater is installed.

Hereinafter, one preferred embodiment of the present invention will be described in detail with reference to the drawings.

1 and 2, the ice maker according to the present invention, a pair of pulleys (10a, 10b) and a drive device 20 for rotating the two pulleys (10a, 10b) installed to be spaced apart a predetermined distance from each other And an ice making conveyor 30 wound around two pulleys 10a and 10b.

The two pulleys 10a and 10b are driven by a drive pulley 10a that receives power from the drive device 20 and rotates, and a driven pulley 10b that receives power from the drive pulley 10a and rotates through an ice making conveyor 30. ), The driving pulley (10a) and the driven pulley (10b) are respectively installed on both ends of the support bracket 11 provided between the two to be spaced apart from each other through the support bracket (11). do.

The ice making conveyor 30 is formed in an annular shape so that a plurality of tray cells 31 having concave ice making units 31a are hinged to each other to form a closed curve, and each ice making unit 31a is easily made to transfer heat. It is made of metal such as stainless steel.

In addition, each tray cell 31 has a projection protrusion 31b protruding from the inside so as to receive power from the drive pulley 10a, and the transfer protrusion 31b on the drive pulley 10a and the driven pulley 10b. ), A plurality of transfer grooves 12 are provided on the outer circumferential surface at regular intervals so as to engage with each other. Therefore, when power is transmitted from the drive pulley 10a to the tray cell 31 through the transfer protrusion 31b and the groove 12, the tray cell 31 rotates around the drive pulley 10a and the driven pulley 10b. Will be done.

Each tray cell 31 has a projection protrusion 31b protruding from the inside so as to receive power from the driving pulley 10a, and the transfer protrusion 31b and the driving pulley 10a and the driven pulley 10b. A plurality of transfer grooves 12 are provided on the outer circumferential surface at regular intervals so as to be engaged. Therefore, when power is transmitted from the drive pulley 10a to the tray cell 31 through the transfer protrusion 31b and the groove 12, the tray cell 31 rotates around the drive pulley 10a and the driven pulley 10b. Will be done.

In addition, a heater 40 is provided to melt a contact surface of the ice making unit 31a of the ice frozen in the ice making unit 31a. In the present embodiment, the heater 40 is provided below the support bracket 11. It generates heat, and the ice making unit 31a can apply heat to the tray cells 31 facing downward.

In addition, the ice maker according to the present invention is provided with an ice maker for allowing ice to be separated from the ice maker 31a. The ice making device is provided on each of the tray cells 31 and is rotatably installed on one side of the ice making unit 31 a to rotate and move the ice lever 50 and the ice lever 50 to push off the ice located in the ice making unit 31 a. ) Is provided with a locking member (60) to rotate the ice lever (50).

As shown in FIG. 3, the moving lever 50 is hinged to an installation portion 31c provided concave on one side of the ice making unit 31a to be rotated about the hinge 51. It is extended to the inside of the ice portion 31a and is formed to extend to protrude out of the ice making portion 31a on the other side of the ice portion 52 and the other side of the ice portion 52 supporting the side of the ice contained in the ice making portion 31a. 60 is provided with a lever portion 53 engaged. At this time, the moving lever 50 is formed so that the moving part 52 is relatively heavy than the lever part 53 and is caught and rotated by the locking member 60, and the moving part 52 is installed by its own weight. It is possible to return to (31c), in this embodiment the length of the ice portion 52 is formed longer than the length of the lever portion 53 in this embodiment.

Referring again to FIGS. 1 and 2, the locking member 60 is formed in a rod shape and is fixedly installed in the middle of the traveling path of the ice lever 50 moving together with the ice making conveyor 30, according to the movement of the ice making conveyor 30. The lever 53 is caught by the catching member 60. In the present embodiment, the catching member 60 receives ice having a contact surface with the ice making unit 31a melted by the heater 40. It is installed under the ice making conveyor 30 so as to separate from the.

Therefore, when the ice making conveyor 30 is moved by the two pulleys 10a and 10b, the lever 53 is caught by the locking member 60, and the ice lever 50 rotates while the ice 52 rotates the ice. This is to separate from the ice making unit 31a.

These ice makers are to be fixed to both ends of the support bracket 11 in the freezer compartment, etc. In the present embodiment, plate-shaped on both sides of the support bracket 11 to fix both ends of the support bracket 11. The fixing bracket 70 is provided to be installed on the fixing bracket 70, and both ends of the locking member 60 are fixed to the fixing bracket 70.

In addition, a lower portion of the ice maker is provided with a storage tray 80 to hold ice produced by the ice maker, and an upper portion of the ice maker is provided with a water supply pipe 90 to supply water to the tray cell 31.

In the present embodiment, the locking member 60 is located below the ice making conveyor 30 in which the heater 40 is adjacent to the ice making unit after the contact surface with the ice making unit 31a is melted by the heater 40. Although arrange | positioned, it is also possible to arrange | position in arbitrary positions on the advancing path of the lever part 53 as needed.

Next will be described in detail with reference to the drawings the operation and effect of the ice maker according to the invention configured as described above.

First, water is supplied to the tray cell 31 having the ice making unit 31a facing upward through the water supply pipe 90 and filled in the ice making unit 31a. The ice maker is installed in a freezer compartment of the refrigerator, and thus receives cold air continuously. After a predetermined time, water filled in the ice maker 31a freezes into ice.

In order to use frozen ice, ice must be separated from the tray cell 31. For this purpose, the ice making conveyor 30 is moved by the driving device 20 and two pulleys 10a and 10b. That is, when power is applied to the driving device 20, the driving pulley 10a rotates and the transfer groove 12 provided on the outer circumferential surface of the driving pulley 10a and the transfer protrusion 31b provided on the tray cell 31 are engaged with each other. The ice making conveyor 30 is transported, and the ice making unit 31a in which ice is frozen is directed downward.

When power is applied to the heater 40 in such a state, the heater 40 generates heat and heats the ice making unit 31a of the tray cell 31 to melt the contact surface of the ice making unit 31a. Subsequently, when the ice making conveyor 30 is moved, the locking member 60 is disposed on the moving path of the lever unit 53 of the ice lever 50, and thus the lever 53 is caught by the locking member 60 to move the ice lever 50. ) Rotates around the hinge portion (51). As the ice lever 50 rotates, the ice portion 52 pushes the side of the ice, whereby the ice is separated from the ice making unit 31a and stored in the storage tray 80 provided below.

As described in detail above, the ice maker according to the present invention is provided with a locking lever hinged to one side of the ice making unit and a locking member which is engaged with the ice lever to rotate the ice lever. When rotated, the ice portion of the ice lever pushes the side surface of the ice located in the ice making portion, thereby allowing the ice to be separated from the ice making portion, thereby enabling the ice to be reliably iced.

Claims (5)

A pair of pulleys spaced apart from each other, a driving device to rotate the pair of pulleys, a plurality of ice-making units concave to hold water, and an ice-making conveyor installed around the pair of pulleys, An ice making machine comprising: an ice making lever hinged to the ice portion to rotate the ice making ice from the ice making portion, and a locking member to rotate the ice making lever. The method of claim 1, The ice maker has an ice maker which extends inside the ice maker and is supported on the side of the ice, and a lever which protrudes outside the ice maker and is caught by the locking member. The method of claim 2, The ice maker is characterized in that the weight is formed to be relatively larger than the weight of the lever portion. The method of claim 1, An ice maker, characterized in that a heater is provided on the inner side of the ice making conveyor to heat the ice making conveyor portion facing the ice making unit downward. The method of claim 4, wherein The engaging member is provided on the lower side of the ice making conveyor, the heater is installed.