KR102145379B1 - Water dispenser equipped - Google Patents

Abstract

The present invention relates to an ice making apparatus that implements a refrigerant supply and discharge in an integrated structure, comprising: a refrigerant supply pipe having a plurality of ice-making fins through which refrigerant gas is supplied and the supplied refrigerant gas circulates; And a refrigerant discharge pipe connected to the refrigerant supply pipe to discharge the refrigerant gas supplied to the refrigerant supply pipe, wherein the refrigerant discharge pipe provides an ice-making device that implements a refrigerant supply and discharge stacked on the refrigerant supply pipe in an integrated structure. .

Description

Ice making device that realizes refrigerant supply and discharge in an integrated structure {WATER DISPENSER EQUIPPED}

The present invention relates to an ice-making apparatus, and more particularly, to an ice-making apparatus that implements a slim refrigerant supply and discharge in an integrated structure.

In general, drinking water supply devices (including "water purifier" and "cold/hot water dispenser") are devices that treat raw water such as tap water using one or more filters and provide it to users. Recently, the purified water is cooled. Alternatively, ice water purifiers having a function of providing cold water or hot water by heating, respectively, and a function of making ice with purified water by providing an ice-making device inside the device are widely used.

Meanwhile, a cold/hot water dispenser is a device that cools or heats bottled water or mineral water separately supplied and supplies cold water or hot water to a user, respectively, and recently, ice cold and hot water machines having an ice-making function, similar to ice water purifiers, are known.

In an ice purifier or an ice cold/hot water dispenser (hereinafter collectively referred to as a "drink water supply device"), the ice making device responsible for the ice making function is divided in several ways, but the ice making device is generally located above the cold water tank or the ice making room.

In other words, among the following prior art documents, Korean Patent Registration No. 10-0729962 of Prior Art Document 1 includes a drip tray containing cold water for ice making on the top of the cold water tank, and ice by cooling the cold water for ice making while immersed in the drip tray. An ice making unit is constructed with an evaporator having a finger-shaped ice making pin to make, and when ice is completed, the ice is separated from the evaporator and the ice is sent to the cold water tank or ice storage tank below by rotating the drip tray.

In addition, in Korean Registration Room No. 20-0330516 of Prior Art Document 2, an ice-making plate with an evaporator is disposed therein with a plurality of concave grooves opened downward in the upper portion of the ice-making room, and the above There is disclosed an ice-making unit having a structure of spraying cold water for ice making toward the concave grooves to make ice in each concave groove of the ice making plate, and when the ice is completed, the ice is separated from the ice making plate, dropped downward, and sent to an ice storage.

On the other hand, the ice making apparatus 1 disclosed in Prior Art Document 1 and 2 as described above is provided with a refrigerant pipe 2 in the shape of a "U" that is discharged after being circulated after being supplied with a refrigerant, as shown in FIG. 1, Both refrigerant pipes 2 are provided with a plurality of ice-making fins 4 protruding downwardly in communication with each of the refrigerant pipes 2 at regular intervals.

The ice making pin 4 provided as described above is provided in a state immersed in the water tank 40 in which drinking water is stored, and then the outer peripheral surface of the ice making pin 4 is supplied to the coolant pipe 2 as the coolant gas 3 is supplied. As the surrounding water cools, ice 5 is created.

Here, reference numeral 41 denotes a water inlet through which purified water is supplied to the water tank 40.

However, since the refrigerant pipe 2 provided in the conventional ice making apparatus 1 is formed in a "U" shape, the horizontal width of the ice making apparatus 1 is the U-shaped width of the refrigerant pipe 2 The size and volume of the drinking water supply device to which the ice maker 1 is applied are increased.

Since the description of the ice making apparatus and the drinking water supply apparatus to which the ice making apparatus is applied is described in detail in the following prior art documents, a detailed description thereof will be omitted.

(Prior Technical Document 1) Korean Patent Registration No. 10-0729962 (Prior technical literature 2) Korean Registered Utility No. 20-0330516

Accordingly, the present invention has been conceived to solve the problems of the prior art as described above, and an object of the present invention is to provide an ice making apparatus that implements a refrigerant supply and discharge in an integrated structure to reduce the volume of the ice making apparatus. .

The above object is, a refrigerant supply pipe having a plurality of ice making pins while the refrigerant gas is supplied; And a refrigerant discharge pipe for discharging the refrigerant gas supplied to the refrigerant supply pipe, wherein the refrigerant discharge pipe is achieved by an ice making device that implements a refrigerant supply and discharge in an integrated structure provided to be stacked on the refrigerant supply pipe.

In addition, it is preferable that the refrigerant discharge pipe and the refrigerant supply pipe are connected by a closing cap so that the ducts of the refrigerant pipes communicate with each other, and a hollow insertion pipe portion is formed in the refrigerant supply pipe, while the refrigerant discharge pipe is inserted into the insertion pipe portion.

In addition, it is preferable that the refrigerant discharge pipe is provided by being inserted into the refrigerant supply pipe, and the refrigerant discharge pipe is provided through a partition provided in the refrigerant supply pipe.

According to the ice making apparatus implementing the refrigerant supply and discharge in an integrated structure of the present invention, the volume of the ice making apparatus can be reduced by providing the refrigerant pipes of the ice making apparatus in a vertically stacked form, and the drinking water supplied with the ice making apparatus is provided. Since the size and volume of the device can be slimmed, there is an effect of reducing the cost.

1 is a view of a drinking water supply device equipped with a conventional ice making device.
2 is a block diagram of an ice making apparatus according to a first embodiment of the present invention.
3 is a front cross-sectional view of FIG. 2.
4 is a cross-sectional view taken along line AA of FIG. 3.
5 is an enlarged view of a main part of a drinking water supply device equipped with an ice maker according to the first embodiment of the present invention.
6 is a block diagram of an ice maker according to a second embodiment of the present invention.
7 is a front cross-sectional configuration diagram of FIG. 5.
8 is a cross-sectional view taken along line BB of FIG. 6.
9 is an enlarged view of a main part of a drinking water supply device equipped with an ice making device according to a second embodiment of the present invention.

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

The terms used in this process are terms defined in consideration of functions in the present invention, and may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are merely illustrative of the elements presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention, and the composition of the claims. Embodiments including elements that can be substituted as equivalents in elements may be included in the scope of the present invention.

In addition, terms such as "first", "second", "one side", and "the other side" in the following embodiments are used to distinguish one component from other components, and the components are the terms described above. Is not limited by Hereinafter, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the subject matter of the present invention will be omitted.

2 to 9 are views showing an ice making apparatus according to the present invention and a drinking water supply apparatus to which the ice making apparatus is applied.

First, prior to describing the present invention, the same reference numerals are assigned to the same parts as in the prior art, and redundant descriptions will be omitted.

The ice making apparatus 100 according to the first embodiment of the present invention includes a refrigerant supply pipe 110 through which refrigerant gas 3 (refer to FIG. 3) is supplied, as shown in FIGS. 2 to 4, and a refrigerant gas 3 It includes a refrigerant discharge pipe 130 from which is discharged, and a closing cap 140 coupled to the ends of the refrigerant discharge pipe 130 and the refrigerant supply pipe 110 to communicate the pipe passages of both pipes.

The refrigerant supply pipe 110 is a hollow pipe with its both ends open, and a plurality of ice-making pins 120 communicating with the refrigerant supply pipe 110 are provided to protrude in the same direction at predetermined intervals at one side, that is, a lower portion thereof. The pin 120 is provided to be submerged in water. On the other hand, in the refrigerant supply pipe 110 opposite the ice making pin 120, a hollow insertion pipe portion 122 having an outer diameter smaller than the outer diameter of the refrigerant supply pipe 110 is formed protruding from the refrigerant supply pipe 110, and the insertion pipe portion 122 ), a refrigerant discharge pipe 130 is inserted and provided. The insertion pipe portion 122 formed as described above needs to limit the outer diameter to the outer diameter of the maximum refrigerant supply pipe 110, which limits the space (width) occupied by both refrigerant pipes to the width of the refrigerant supply pipe 110 This is to minimize.

In addition, a partition 121 is installed inside each ice-making fin 120 to partition the inner space of the ice-making fin 120 and the refrigerant supply pipe 110, and the partition 121 has an end portion of the ice-making fin 120 It is provided spaced apart from the inner end of the. The partition 121 is welded to the inside of the ice-making pin 120, and the ice-making pin 120 to which the partition 121 is fixed is inserted into the refrigerant supply pipe 110 and fixed by welding.

Therefore, the refrigerant gas 3 supplied to the refrigerant supply pipe 110 is supplied along the refrigerant supply pipe 110 and then to one side of the ice-making pin 120 by the partition 121 as shown by the arrow in FIG. 3. It flows in and moves to the inner end of the ice making pin 120, and then is supplied to and moved to the other side of the ice making pin 120 around the partition 121, and then exits from the ice making pin 120 and refrigerant supply pipe 110 It repeats the supply path moving along. On the other hand, the refrigerant gas 3 having such a supply path is supplied to the inner end of the ice-making fin 120 in which water is submerged by the partition 121, so that the efficiency of generating ice 5 (refer to FIG. 5) can be improved. do.

Like the refrigerant supply pipe 110, the refrigerant discharge pipe 130 is a hollow pipe whose both ends are opened, and is stacked in contact with the upper portion of the refrigerant supply pipe 110 opposite the ice-making pin 120. By reducing the width to the outer diameter of the refrigerant supply pipe 110, the left and right widths of the ice making apparatus 100 can be minimized, so that the ice making apparatus 100 can be slimmed. Of course, at this time, the refrigerant discharge pipe 130 may be formed to have an outer diameter smaller than the outer diameter of the refrigerant supply pipe 110 and be welded to the outer surface of the refrigerant supply pipe 110, but for a more stable installation of the refrigerant discharge pipe 130 3 and 4, it is preferable that the refrigerant discharge pipe 130 is inserted into the insertion pipe part 122 protruding from the refrigerant supply pipe 110.

In addition, the closing cap 140 is provided by being coupled to one end of the refrigerant supply pipe 110 and the insertion pipe part 122 formed to be stacked up and down (an end opposite to the inlet to which the refrigerant gas 3 is supplied). Accordingly, the refrigerant supply pipe 110 and the refrigerant discharge pipe 130 are provided to communicate with each other by the closing cap 140 provided as described above, so that the refrigerant gas 3 supplied to the refrigerant supply pipe 110 is supplied to the closing cap 140 ) Through the internal flow path of the refrigerant discharge pipe 130 to be introduced and discharged.

Meanwhile, as described above, each component constituting the ice making device 100, that is, the refrigerant supply pipe 110, the ice-making pin 120, the partition 121, the refrigerant discharge pipe 130, the finishing cap 140, etc., is made of copper or stainless steel. It may be formed of a material such as steel or aluminum, and the surface may be surface-treated by any one of nickel or chrome plating, electrolytic polishing, anodizing, or coating, or a combination thereof. Corrosion can be prevented in spite of prolonged use of the refrigerant supply pipe 110, the ice making pin 120, the partition 121, the refrigerant discharge pipe 130, and the finishing cap 140 by the surface treatment as described above.

The ice making apparatus according to the first embodiment configured as described above may be provided in the drinking water supply apparatus, as shown in FIG. 5.

First, it is revealed that the drinking water supply device is a drinking water supply device including a water purifier and a hot and cold water device.

Such a drinking water supply device includes a filter (not shown) that purifies raw water supplied from a tap water supply, a water purification tank (not shown) that primarily stores water purified by the filter, and a water supplied from the water purification tank. It includes a cold water tank, that is, a water tank 40, an ice making device 100 installed on the upper part of the water tank 40, and an ice storage (not shown) for storing ice produced by the ice making device 100.

In addition, the drinking water supply apparatus of the present embodiment may include a hot water tank (not shown) for heating and storing water supplied from a water purification tank (not shown) using a heater (not shown).

In addition, each of the water intake pipes and valves are provided from the water purification tank (not shown), the water tank 40, and the hot water tank (not shown) so that the user can take the water stored in each tank. An ice taking out means is provided to take out ice stored in (not shown).

On the other hand, in the drinking water supply device according to the present embodiment, the main feature of the present invention lies in the configuration and structure of the ice making device 100, and thus the ice making device 100 will be described in detail below, and the remaining various filters, tanks, pipes, Descriptions of valves and ice dispensing means will be omitted.

As shown in FIG. 5, the drinking water supply device includes a water tank 40 for storing potable water, and an ice making device 100 provided in the water tank 40 to generate ice 5.

This water tank 40 is a cold water tank in which water purified through a plurality of filters is introduced and stored. A water inlet 41 through which purified water is introduced is provided in the lower part, and an ice making device 100 is provided at the upper part thereof. It is equipped.

In particular, the ice making device 100 is provided above the water tank 40 of the drinking water supply device, the ice making pin 120 of the refrigerant supply pipe 110 is provided to be immersed in the water stored in the water tank 40, and the refrigerant discharge pipe 130 is provided in a state in contact with the upper portion of the refrigerant supply pipe 110, so that the width between both refrigerant pipes is reduced to the outer diameter of the refrigerant supply pipe 110 and becomes slim, so that the ice making apparatus 100 can be slimmed and slimmed. Due to the ice making device 100, the drinking water supply device can also be slimmed, so that the cost of the drinking water supply device can be reduced. Meanwhile, a description of the remaining detailed configuration of the ice making apparatus 100 is the same as that of the ice making apparatus 100 of the first embodiment described above, so a repeated description thereof will be omitted.

6 to 8 show the ice making apparatus according to the second embodiment of the present invention, and the same reference numerals are assigned to the same parts as in the prior art and the above-described embodiment, and redundant descriptions are omitted.

The ice making apparatus 200 according to the second embodiment of the present invention includes a refrigerant supply pipe 210 through which refrigerant gas 3 (refer to FIG. 7) is supplied, as shown in FIGS. 6 to 8, and a refrigerant gas 3 It includes a refrigerant discharge pipe 230 is discharged.

The refrigerant supply pipe 210 is a pipe in which the inlet through which the refrigerant gas 3 is supplied is opened and the opposite side is closed and closed, and a plurality of ice-making fins 220 communicating with the refrigerant supply pipe 210 are at one side or lower part thereof. It is provided to protrude in the same direction for each interval, and each ice-making pin 220 is provided to be submerged in water.

In addition, a partition 221 that divides the inner space of the ice-making fin 220 and the refrigerant supply pipe 210 is welded and fixed inside each ice-making pin 220, and the end of the partition 221 is an ice-making pin. It is provided to be spaced apart from the inner end of the 220. In this way, the ice-making pin 220 to which the partition 221 is welded is inserted into the refrigerant supply pipe 210 and fixed by welding.

Therefore, the refrigerant gas 3 supplied to the refrigerant supply pipe 210 circulates through the refrigerant supply pipe 210 and each ice-making pin 220 as shown by the arrow in FIG. 7 and then flows into the refrigerant discharge pipe 230. Is discharged, and the refrigerant gas 3 is supplied to and circulated through the partition 221 to the inner end of each ice-making pin 220, thereby improving the efficiency of generating ice 5.

Meanwhile, the refrigerant discharge pipe 230 is a hollow pipe with its both ends opened, and is inserted into the refrigerant supply pipe 210 while passing through each partition 221. At this time, the refrigerant discharge pipe 230 is provided with a shorter length than the refrigerant supply pipe 210 and has an outer diameter smaller than the outer diameter of the refrigerant supply pipe 210, as shown in FIGS. 7 and 8, and the refrigerant supply pipe 210 The refrigerant gas 3 supplied to) may be discharged through the refrigerant discharge pipe 230.

In particular, since the refrigerant discharge pipe 230 is inserted and provided in the refrigerant supply pipe 210, the refrigerant discharge pipe 230 does not occupy any external space, so the volume of both refrigerant pipes can be minimized, thus making the ice making device 200 as slim as possible. You can do it.

As described above, the refrigerant supply pipe 210, the ice-making pin 220, the partition 221, and the refrigerant discharge pipe 230 constituting the ice making apparatus 200 according to the present embodiment are made of copper, stainless steel, aluminum, etc. It can be formed, and the surface is surface-treated by any one of nickel or chromium plating or electrolytic polishing or anodizing or coating, or by a combination thereof, so that corrosion can be prevented despite long use.

The ice making device 200 according to the second embodiment as described above may be provided in the drinking water supply device, as shown in FIG. 9, and the drinking water supply device is the same as the above-described drinking water supply device, so a repeated description thereof is omitted. do.

Meanwhile, as shown in FIG. 9, the drinking water supply device includes a water tank 40 for storing potable water, and an ice making device 200 provided in the water tank 40 to generate ice 5. .

This water tank 40 is a cold water tank in which water purified through a plurality of filters is introduced and stored. A water inlet 41 through which purified water is introduced is provided in the lower part, and an ice making device 200 is provided at the upper part thereof. It is equipped.

In particular, the ice making device 200 is provided above the water tank 40 of the drinking water supply device, and the ice making pin 220 of the refrigerant supply pipe 210 is provided to be immersed in the water stored in the water tank 40, and the refrigerant discharge pipe 230 is provided in a state inserted in the upper inner side of the refrigerant supply pipe 210, so that the width between both refrigerant pipes is reduced to the outer diameter of the refrigerant supply pipe 210 and becomes slim, so that the ice making apparatus 200 can be slimmed, Due to the slim ice making device 200, the drinking water supply device can also be slimmed, so that the cost of the drinking water supply device can be reduced. Meanwhile, since the description of the remaining detailed configuration of the ice making apparatus 200 is the same as that of the ice making apparatus 200 of the second embodiment described above, a repeated description thereof will be omitted.

Although the present invention has been described in detail through specific embodiments, this is for explaining the present invention in detail, and the present invention is not limited thereto, and the general knowledge in the art within the spirit of the present invention It is clear that the transformation or improvement is possible.

All simple modifications to changes of the present invention belong to the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

3: refrigerant gas 5: ice
40: water tank 41: water inlet
100,200: ice making device 110,210: refrigerant supply pipe
120,220: ice-making pin 121,221: partition
122: insertion pipe part 130,230: refrigerant discharge pipe
140: closing cap

Claims (5)

A refrigerant supply pipe having a plurality of ice making pins through which refrigerant gas is supplied and the supplied refrigerant gas circulates; And a refrigerant discharge pipe for discharging the refrigerant gas supplied to the refrigerant supply pipe, wherein the ice-making apparatus has a structure including:
The refrigerant discharge pipe is provided in the refrigerant supply pipe to implement the refrigerant supply and discharge in an integrated structure,
The refrigerant supply pipe 210 is a pipe in which the inlet through which the refrigerant gas 3 is supplied is opened and the opposite side is closed and closed, and a plurality of ice-making fins 220 communicating with the refrigerant supply pipe 210 are at one side, that is, a lower portion thereof. It is provided to protrude in the same direction at each interval,
Inside each of the ice-making fins 220, a partition 221 that divides the inner space of the ice-making fin 220 and the refrigerant supply pipe 210 is welded and fixed, and the partition 221 has an end of the ice-making pin ( 220) is provided to be spaced apart from the inner end of the refrigerant gas 3, after circulating the refrigerant supply pipe 210 and each ice-making pin 220, is introduced into the refrigerant discharge pipe 230 and discharged,
The refrigerant discharge pipe 230 is a hollow pipe with its both ends opened, and is inserted into the refrigerant supply pipe 210 while passing through each partition 221 to supply the refrigerant so that the refrigerant discharge pipe 230 does not occupy any external space. And Ice making device, characterized in that to implement the discharge in an integrated structure. delete delete The method according to claim 1,
The refrigerant discharge pipe is inserted into the upper inner side of the refrigerant supply pipe and is provided to discharge all refrigerant gas supplied to the refrigerant supply pipe.
The method of claim 4,
The refrigerant discharge pipe is an ice making device that implements a refrigerant supply and discharge through a partition provided in the refrigerant supply pipe in an integrated structure.

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