KR100507971B1 - Ice maker - Google Patents

Abstract

The present invention relates to an ice maker capable of performing ice and ice more efficiently.

The ice maker according to the present invention is an ice making unit concave to hold water for ice making, a heater that heats the ice making unit and melts a contact surface with the ice making unit of ice frozen in the ice making unit, and an ice making unit inside And a heat deformation member that is deformed by heat transmitted from the heater and exerts a force on the ice. When heat is applied to the ice making unit by the heater, the contact surface of the ice making unit melts and the heat deformation member deforms while Since the force is applied to the ice, the ice is more reliably iced away from the ice making unit.

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.

An ice maker according to the present invention for achieving the above object, the ice making unit concave so as to contain water for ice making, and the ice making unit of the ice frozen in the ice making unit by applying heat to the ice making unit and And a heater that melts a contact surface of the heat dissipation member and is disposed inside the ice making unit and deforms itself by heat transmitted from the heater and protrudes into the ice making unit to apply a force to ice placed in the ice making unit.

In addition, the heat deformation member includes a bimetal formed by closely fixing a plurality of metal pieces having different expansion coefficients.

The apparatus may further include a pair of pulleys spaced apart from each other, a driving device for rotating the pair of pulleys, and an ice making conveyor provided with a plurality of ice making units wound around the pair of pulleys.

In addition, the heater is configured to apply heat to an ice making unit facing downward among the ice making units.

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.

On the other hand, the ice maker according to the present invention is provided with an icemaker to allow the ice to be separated from the ice maker 31a. Such an ice making device is provided in each ice making unit 31a, and is formed of a heat deformation member which forms a shape by itself and ices ice according to temperature. In this embodiment, the bimetal 50 is used as the heat deformation member.

The bimetal 50 is formed by closely fixing two thin metal pieces 50a and 50b having different expansion coefficients. In the present embodiment, the metal piece 50a having a relatively large expansion coefficient among the two metal pieces 50a and 50b is formed. The metal piece 50b having a relatively small expansion coefficient is referred to as a first metal piece 50a and is called a second metal piece 50b.

Therefore, when the heat is applied to the bimetal 50, the two metal pieces 50a and 50b are expanded with different expansion coefficients, and thus the lengths thereof are different from each other, so that the metal pieces 50a and 50b are bent concave toward the second metal piece 50b having a relatively small expansion coefficient. .

In order to install the bimetal 50, the inner bottom surface of the ice making unit 31a is provided with a concave installation portion 31c. The bimetal 50 has one end fixed to the installation portion 31c and is horizontal to the bottom surface. While maintaining the state, the heat is transferred from the heater 40 and the other end is deformed from the installation portion 31c and protrudes into the ice making unit 31a to apply a force to the ice located in the ice making unit 31a.

Referring back to FIG. 1, the ice maker is provided with both ends of the support bracket 11 fixed inside the freezer compartment, and in this embodiment, the support brackets can be fixed to both sides of the support bracket 11. 11) on both sides of the plate-shaped fixing bracket 60 is provided so that the ice maker is installed on the fixing bracket (60).

In addition, a lower portion of the ice maker is provided with a storage tray 70 so as to contain the ice produced by the ice maker, and an upper portion of the ice maker is provided with a water supply pipe 80 to supply water to the tray cell 31.

In the present embodiment, the bimetal 50 is used as the heat deformation member. However, the present invention is not limited thereto, and heat deformation members made of various materials may be used.

In addition, the present embodiment discloses an ice maker having an ice making conveyor 30 that is rotated by a pair of pulleys 10a and 10b. However, the present invention is not limited thereto and applied to various kinds of ice makers having an ice maker and a heater. Can be done.

In addition, in this embodiment, the bimetal 50 is deformed when one end is fixed to the mounting portion 31c of the ice making unit 31a and heat is transferred, and the other end thereof is separated from the mounting portion 31c to apply a force to the ice. 4, both ends of the bimetal 50 are fixed to the mounting portion 31c and deformed when heat is transferred, and the center portion thereof may be separated from the mounting portion 31c.

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 80 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, thereby melting the contact surface of the ice making unit 31a. At the same time, the heat transferred to the ice making unit 31a is transferred to the bimetal 50 having one end fixed to the installation unit 31c, which is a thermal expansion member, whereby the bimetal 50 has a relatively small expansion coefficient. The other end departs from the mounting portion 31c while being concavely deformed toward the second metal piece 50b and exerts a force on the ice.

Therefore, the ice not only melts the contact surface with the ice making unit 31a but also transmits force from the bimetal 50, thereby leaving the ice from the ice making unit 31a.

As described in detail above, the ice maker according to the present invention includes a heat deformation member provided in the ice making unit where ice is manufactured, and a heater that heats the heat deformation member, and when heat is applied to the ice making unit by the heater, At the same time that the contact surface with the ice making unit melts, the heat deformation member deforms and exerts a force on the ice, so that the ice is more surely iced from the ice making unit.

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.

Figure 4 is a schematic diagram showing the operation of the ice-making apparatus according to another embodiment of the present invention.

Explanation of symbols on main parts of drawing

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: bimetal 60: fixing bracket

70: storage tray 80: water supply pipe

Claims (4)

An ice making part concave so as to contain water for ice making, A heater that applies heat to the ice making unit to melt a contact surface with the ice making unit of ice frozen in the ice making unit, And a heat deformation member disposed inside the ice making unit and deforming itself by heat transmitted from the heater and protruding into the ice making unit to apply the force to the ice positioned in the ice making unit. The method of claim 1, The heat deformation member is an ice maker, characterized in that it comprises a bimetal formed by tightly fixing a plurality of metal pieces having different expansion coefficients. The method according to claim 1 or 2, And a pair of pulleys spaced apart from each other, a driving device to rotate the pair of pulleys, and an ice-making conveyor provided around the pair of pulleys and provided with a plurality of ice makers. The method of claim 3, wherein And the heater is configured to apply heat to an ice making unit facing downwardly among the ice making units.