KR20130095974A - Refrigerant pipe for icemachine having heater - Google Patents

Abstract

PURPOSE: A refrigerant pipe with a heater for an ice machine is provided to remove ice from the refrigerant pipe by melting a surface of the refrigerant pipe in contact with the ice formed on the refrigerant pipe in a predetermined thickness. CONSTITUTION: A refrigerant pipe with a heater for an ice machine comprises a body (110), a finger (120), and a heater (130). The body has a flow path inside for refrigerant to circulate. The finger is combined in the lower end of the body. While the finger is being cooled by being heat-exchanged with the refrigerant circulating inside the body, ice is formed outside the finger. The heater is combined in an upper part inside the body and removes the ice from the finger by melting a surface of the finger in contact with the ice formed on the finger. A heater connecting part is formed in the upper part inside body.

Description

Refrigerant pipe for ice machine with heater {refrigerant pipe for icemachine having heater}

The present invention relates to a refrigerant pipe for an icemaker equipped with a heater, and more particularly, a heater or a temperature fuse is built into the refrigerant pipe inside the refrigerant pipe coupled to the inside of the ice maker to circulate the refrigerant through an operation of circulating the refrigerant. The present invention relates to a refrigerant pipe for an ice maker equipped with a heater for dissolving the frosted surface of the ice formed on the refrigerant pipe to a predetermined thickness through the insertion of the heater to remove the ice from the refrigerant pipe.

In general, an ice maker cools purified water to produce ice, and is used in various devices such as a refrigerator and a water purifier. The ice maker includes a refrigerant pipe having a plurality of fingers coupled to an upper side of a water supply case. Furnace refrigerant is installed to flow, the finger of the refrigerant pipe is cooled by the refrigerant flowing into the refrigerant pipe is a plurality of ice is automatically produced in the ice maker as the ice is gradually implanted on the outer surface of the finger.

Such ice makers can use ice by deicing the ice formed on the finger of the refrigerant pipe from the refrigerant pipe and supplying it to the ice storage case. Thus, the user can use the ice implanted on the refrigerant pipe to use the ice. Apparatus and methods for easily defrosting have been developed and used in various forms.

Accordingly, in the related art, "Korean Patent Publication No. 10-2004-0009562 (2004.1.31)" has been disclosed, which is applied to an ice making cold plate after a plurality of ice making units installed in the ice making apparatus simultaneously perform an ice making operation. To defrost ice formed in thickness, supply the high pressure saturated steam gas stored together with the high temperature and high pressure liquid refrigerant in the receiver of the refrigerating device to the ice making cold plate and heat the ice making cold plate with the heat of the high pressure saturated steam gas. An ice-de-ice method and a de-ice device of an ice maker that slightly melts the frosted surface of the ice attached to the drop-off are presented.

However, conventionally, in order to defrost ice formed at a predetermined thickness through an ice making plate, a high-temperature, high-pressure steam gas is supplied to the inside of the ice making plate to heat the ice making plate to melt the frosted surface of the ice attached to the ice making plate. Since the ice is removed, the time required for cooling and heating the ice making cold plate, such as heating the ice making cold plate cooled by the refrigerant with high temperature and high pressure steam gas, or supplying the refrigerant to the heated ice making cold plate to cool the ice making cold plate again, is increased. As a result of increasing the time to produce ice, there was a problem such that the energy consumption is increased according to the increase in the time that the ice is produced.

The present invention is to solve the above problems, the inner surface of the refrigerant pipe and the heater is built into the inside of the refrigerant pipe coupled to the inside of the ice maker to circulate the refrigerant through the operation to circulate the refrigerant on the pipe surface By combining the surface contact, through this, the refrigerant pipe made of metal material is quickly heated to melt the frosted surface of the ice formed on the refrigerant pipe to a predetermined thickness, thereby significantly reducing the time that ice is defrosted, and at the same time, cooling the refrigerant to the refrigerant pipe. It is an object of the present invention to provide a refrigerant pipe for an ice maker equipped with a heater that allows the refrigerant pipe to be cooled rapidly due to the characteristics of the heater made of metal material by stopping the operation of the heating device.

According to an aspect of the present invention, 1. A refrigerant pipe for an ice maker that cools purified water through circulation of a refrigerant to automatically produce ice, the refrigerant pipe comprising: a body having a flow path through which a refrigerant is circulated; A finger coupled to a lower end of the body, the ice being implanted outside as it is cooled through heat exchange with a refrigerant circulated in the body; A refrigerant pipe for an ice maker having a heater coupled to an inner upper side of the body, the heater and the heater dissolving ice from the finger by melting the frosting surface of the ice formed on the finger by heating the body and the finger. to provide.

According to the present invention, the heater is built in the inside of the refrigerant pipe coupled to the inside of the ice machine to circulate the refrigerant through the operation of circulating the refrigerant on the surface of the pipe as the inner surface of the refrigerant pipe and the heater is coupled in surface contact By heating the coolant pipe made of metal quickly through the melting of the frosted surface of the ice on the coolant pipe to a certain thickness, it significantly reduces the defrosting time of the ice and supplies the coolant to the coolant pipe. Due to the characteristics of the heater made of a metal material has an effect that the refrigerant pipe is rapidly cooled.

1 is a perspective view of a refrigerant pipe for an ice maker equipped with a heater according to the present invention.
Figure 2 is a side cross-sectional view of a refrigerant pipe for an ice maker equipped with a heater according to the present invention.
3 to 4 is an operational state diagram of a refrigerant pipe for an ice maker equipped with a heater according to the present invention.

With reference to the accompanying drawings, a refrigerant pipe for an icemaker equipped with a heater according to the present invention will be understood by the embodiments described in detail below.

1 to 2 are views illustrating a refrigerant pipe for an ice maker equipped with a heater according to the present invention.

Accordingly, when the icemaker refrigerant pipe 100 with a heater is schematically described, in the icemaker refrigerant pipe for automatically producing ice by cooling the purified water through the circulation of the refrigerant, the refrigerant is circulated inside A body 110 in which a flow path 112 is formed; A finger 120 coupled to the lower end of the body 110 and having ice formed thereon as it is cooled through heat exchange with a refrigerant circulated in the body 110; The heater coupled to the inner upper side of the body 110, the body 110 and the finger 120 to heat the melting surface of the ice implanted on the finger 120 to defrost the ice from the finger 120 It consists of 130.

Hereinafter, each component will be described in detail.

First, the body 110 is provided to cool the fingers 120 coupled to the bottom of the body 110 to circulate the refrigerant inside the ice maker to cool the ice onto the fingers 120. The body 110 is bent in a 'U' shape and the flow path 112 is formed in a tubular shape so that the refrigerant is circulated therein, the outer circumferential surface of the heater 130 in the upper portion of the body 110 The heater coupling part 111 is formed to correspond to the outer diameter of the heater 130 by protruding upward to be coupled to the surface contact, the body 110 is made of the same material to efficiently perform heat exchange by the refrigerant It is preferable.

At this time, at one end of the body 110, a refrigerant supply line 21 and a refrigerant discharge line 22 provided inside the ice maker to circulate the refrigerant in the flow path 112, respectively, the refrigerant supply line ( 21) and the refrigerant is circulated through the refrigerant discharge line () to cool the body 110, and the refrigerant supply process through the refrigerant supply line 21 and the refrigerant discharge line 22 is generally ice using a refrigerant. Since it is widely used in the ice maker to produce a detailed description thereof will be omitted, and a detailed description of the internal configuration and structure for the ice maker will be omitted.

And, the finger 120 is coupled to a plurality of lower end of the body 110 is coupled to cool the ice to the outside as it is cooled through the refrigerant circulated in the body 110, the finger 120 is circular The plate-shaped coupling plate 121 is fixed to the inside in the form of a pipe at the same time one end of the coupling plate 121 is formed to protrude to the upper portion of the finger 120 to the lower end of the body 110 As the coupling plate 121 is inserted through and coupled, the finger 120 is fixed to the body 110, and cool air of the refrigerant circulated in the body 110 passes through the coupling plate 121. The finger 120 is cooled to a temperature at which ice can be implanted, and the finger 120 is preferably made of the same material to efficiently perform heat exchange by the refrigerant.

In addition, the heater 130 is connected to the heating control unit 200 in a state coupled to the inside of the body 110 to heat the body 110 and the finger 120 through the heat of the heating control unit 200. As the melting surface of the ice implanted on the finger 120 is provided to defrost the ice from the finger 120, the heater 130 is connected to the heating control unit 200 provided inside the ice maker A heat conductor 131 is formed to be heated according to the operation of the heating control unit 200, and the heat generated from the heat conductor 131 is formed on the outer circumference of the heat conductor 131 through the body 110. The outer tube 132 is formed to surround the outer circumference of the heat conductor 131 to efficiently transmit to the heater 131 and at the same time the outer circumferential surface of the outer tube 132 is the heater coupling portion 111 formed on the upper portion of the body 110 The heat generated from the heat conductor 131 is coupled to the surface contact Properly dispersed and to be delivered to the body 110 and the fingers 120, the outer tube 132 is made of brass is preferred search to carry out heat transfer by the heat conductor (131) efficiently.

On the other hand, the heating control unit 200 provided inside the ice maker to heat the heater 130 is to heat the heat conductor 131 by supplying electricity to the heater 130 is generally like a heating heater, hair dryer, etc. Since it is widely used to generate heat in the resistance wire in the heating device using the heating wire, a detailed description of the structure thereof will be omitted.

On the other hand, Figures 3 to 4 is a view showing an operating state of the refrigerant pipe for icemakers equipped with a heater according to the present invention.

First, FIG. 3 shows that the refrigerant pipe 100 is coupled to the refrigerant supply line 21 and the refrigerant discharge line 22 provided in the ice maker, respectively, and the refrigerant pipe 100 is circulated through the refrigerant pipe 100. The ice (I) is implanted in the finger 120 of the), the fingers 120 of the refrigerant pipe 100 are accommodated inside the water supply case 10 provided inside the ice maker, respectively. As the finger 120 is cooled by the coolant circulated into the coolant pipe 100 in a state where purified water is accommodated in the water supply case 10, the water contained in the water supply case 10 is The ice (I) is cooled to be implanted to the outside of the finger 120, the water supply case 10 is generally used for manufacturing the ice (I) in the ice maker, so the detailed description thereof will be omitted. I'll do it.

And, if the ice (I) is implanted on the finger 120 as described above, Figure 4 heats the heater 130 connected to the heating control unit 200 to melt the implanted surface of the ice (I) implanted on the finger 120 The ice (I) is iced in the refrigerant pipe 100 according to the heater, the heater 130 is connected to remove the ice (I) implanted to the outside of the finger 120 in the refrigerant pipe 100 When the heating control unit 200 is operated to heat the heater 130, heat is transferred to the refrigerant pipe 100 in surface contact with the outer tube 132 of the heater 130, and the heat of the heater 130 is maintained. As the transferred refrigerant pipe 100 is heated, the finger 120 coupled to the lower end of the refrigerant pipe 100 is heated to melt an imaginary surface of ice I formed on an outer surface of the finger 120. Ice (I) can be iced from the refrigerant pipe (100).

At this time, the refrigerant pipe 100 made of the same material is quickly heated through the heater 130 connected to the heating control unit 200 of the ice (I) implanted on the finger 120 of the refrigerant pipe 100 to a predetermined thickness The melting time of the ice (I) as the melting surface is significantly reduced and at the same time supply the refrigerant to the refrigerant pipe 100, the operation of the heating control unit 200 is stopped and the heater 130 connected to the heating control unit 200 ) Is rapidly cooled so that the ice (I) can be quickly formed on the finger 120 through the refrigerant circulated through the refrigerant pipe 100.

As described above. While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes, modifications, and alterations can be made by those skilled in the art.

100.Refrigerant pipe 110.Body
111. Heater coupling part 112. Flow path
120.Finger 121.Combination plate
130 Heater 131 Thermal Conductor
132.External Body

Claims (3)

In the refrigerant pipe for ice makers to cool the purified water through the circulation of the refrigerant to automatically produce ice,
A body 110 having a flow path 112 through which refrigerant is circulated;
A finger 120 coupled to the lower end of the body 110 and having ice formed thereon as it is cooled through heat exchange with a refrigerant circulated in the body 110;
The heater coupled to the inner upper side of the body 110, the body 110 and the finger 120 to heat the melting surface of the ice implanted on the finger 120 to defrost the ice from the finger 120 Refrigerant pipe for an ice maker with a heater, characterized in that consisting of (130). The method of claim 1,
Refrigerant pipe for an icemaker equipped with a heater, characterized in that the heater coupling portion 111 is formed on the inner upper portion of the body 110 is the outer circumferential surface of the heater 130 is in contact with each other. The method of claim 1,
The heater 130 is formed of a heat conductor 131 connected to the heating control unit 200 and heated inside, and an outer tube 132 wrapped around an outer circumference of the heat conductor 131, and the outer tube 132. The outer circumferential surface of the refrigerant pipe for an icemaker with a heater, characterized in that the surface contact is coupled to the inside of the body (110).

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