KR200466984Y1 - Ice maker for use of hot and cold water dispenser - Google Patents

Abstract

In the present invention, the upper part forms a distribution space filled with water, and the lower part consists of an evaporating tube through which refrigerant is circulated, and an ice making pin (called an immersion tube of a finger type evaporating tube in which ice is grown on the outer surface) extends below the evaporating tube. And an nozzle tube through which water is sprayed is disposed around the ice making pin, and the sprayed water grows in ice around the ice making pin.
In an ice making device in which ice is formed as water contacting around an ice making pin by cooling a refrigerant through a predetermined cooling system, an upper portion of the water distributor 20 having a water supply space 21 filled with water. ), And the lower portion is formed of an evaporating tube 10 through which a refrigerant is circulated, and an ice making pin 12 protruding below the main body of the evaporating tube 10 is formed below the main body of the evaporating tube 10, The nozzle tube 22 which protrudes downward from the water distributor 20 main body and injects water to an ice-making pin is arrange | positioned centering on (12), and it sprays water from this nozzle tube 22 to the ice-making pin 12. By forming ice on the surface of the ice making pin (12).

Description

Ice Maker {Ice maker for use of hot and cold water dispenser}

The present invention relates to an ice making device, in particular, the upper portion of the water distributor having a water distribution space filled with water, the lower portion is made of an evaporating tube through which the refrigerant is circulated, the ice making pin protruding downward of the main body of the evaporation tube (outside The finger-type evaporation tube of the finger type evaporation tube in which the ice grows on the surface) is formed below the evaporation tube body, and the nozzle tube for protruding downward from the water distributor body and spraying water to the ice making pin is disposed around the ice making pin. The present invention relates to an ice making device in which water sprayed from the nozzle tube forms ice on the surface of the ice making pin.

In general, a cold / hot water machine having an ice making function is a water purifier having a filter for purifying the raw water supplied therein, and a cold / hot water water supplying the raw water separately supplied without cold water or hot water without the function of purifying the raw water supplied. Are classified.

The cold and hot water machine is classified into using drinking water stored in a bottled water bottle produced in a bottled water company and stored in a specific container, and using drinking water at room temperature purified by a separate central water purifier.

The cold and hot water machine is mainly used in a public place such as a public office or an office, but due to the convenience of use, it is recently used in a home.

Figure 1a of the accompanying drawings is a cross-sectional view showing a schematic configuration of a typical cold and hot water machine.

The cold and hot water machine includes an outer case constituting the external appearance as the cold and hot water machine of Utility Model No. 20-0142635. A cover is provided at an upper end of the outer case, and a bottle of water is placed on an upper surface of the cover. The inside of the outer case is formed so that the cold water tank and the hot water tank is in communication with the connecting pipe, the pipe constituting the evaporator is wound along the outer peripheral surface of the cold water tank. In addition, a heater is inserted into the hot water container, and a cold / hot water extraction coke is installed at an outer side of the outer case.

The cold water tank and the hot water tank are connected to the cold and hot water extraction cock through a connecting hose. As a result, the water stored in the cold water tank and the hot water tank may move along the connection hose to be taken out through the cold and hot water extraction cock. And, the water in the bottled water tank, hot water tank and the connection hose is maintained a constant water temperature by the heat insulating member in the outer case. On the other hand, a cooling system (not shown) for supplying a constant temperature refrigerant to the evaporator pipe is mounted to the lower portion of the cold water tank and the hot water tank. Since this cooling system is composed of a general refrigeration cycle, a detailed description thereof will be omitted.

It describes the operation of the cold and hot water machine. First, the bottled water is placed on the top cover of the outer case so that the inlet portion thereof faces downward. When the bottled water is seated, water inside the bottled water flows down to be filled in the cold water container, and the water in the cold water container is moved through the connecting pipe to be filled in the hot water container 22, and the cold water container and The water filled in the hot water tank is maintained at a constant temperature by the evaporator and the heater, respectively. After that, the user can simply push the cold and hot water dispensing cock backward to take out and drink the desired amount of water. At this time, the amount of water corresponding to the water taken out through the cold and hot water extraction coke is supplied by the weight from the bottled water bottle to the cold water tank and hot water tank.

Such a cold and hot water machine has a limitation in providing the water stored in the bottled water only in the liquid state. That is, the liquid bottled water can be taken directly or used as cooking water, and in order to make the bottled ice, there is a problem that a separate freezing process must be performed in a separate refrigerator.

The solution to this problem is a cold / hot water machine having ice making means of Patent No. 10-0853445 shown in FIG. 1B. Various ice makers applied to such conventional ice water purifiers and cold and hot water dispensers are basically immersed in an evaporation tube in which an immersion tube (ice pin) is immersed in a water plate (tray).

It cools the drinking water supplied from the cold water tank and a cold water tank unit including a cold water storage for storing drinking water supplied from the auxiliary tank for storing drinking water and a circulation pump for supplying the drinking water stored in the cold water storage to the submerged ice making unit. An immersion type ice making unit for producing cold water or ice, comprising: an upper surface of the cold water storage container is formed by an inclined grill, cold water produced by the immersion type ice making unit is passed through the grill to the cold water storage container, Ice produced by the immersion type ice making unit is known to move to the ice storage along the upper surface of the cold water storage cold and hot water machine with an ice making function.

A hole is formed in the grill so that some of the ice supplied from the submerged ice making unit passes through the grill and moves to the cold water storage. The cold water storage includes a temperature sensor for sensing a temperature of the stored drinking water, and stored drinking water. The water level sensor for detecting the water level is mounted, and the immersion type ice making unit (ice making device) receives drinking water supplied from the cold water storage, and is installed to be dipped into the drip tray so as to be rotated by a predetermined angle, the drip tray It has been improved to a cold and hot water machine having an ice making function including an evaporator unit for cooling the drinking water contained in the.

However, since a device for ice making ice of a cold water heater in which the conventionally known ice is discharged forms a structure in which an ice making pin of an evaporation tube is immersed in a water plate, it is not suitable for a cold water heater having a simple structure that supplies raw water only with cold water and hot water. When applied, the unnecessary large-scale ice maker is installed, not only electrical consumption but also the complexity of the ice maker, as well as disadvantages in terms of production cost, and also had disadvantages in economics. In addition, in recent years, the home and office has a disadvantage in that it does not have the disassembly and assembly structure necessary for cleaning the cold and hot water supply line, as well as the water tank is installed in the cold and hot water machine maintenance, maintenance, management.

On the other hand, the injection nozzle assembly for ice maker of No. 20-0460218, known as Figure 1c of the accompanying drawings, in the injection nozzle assembly for ice makers to inject water into the evaporator assembly to generate ice chips, water supply pipe is connected to one side, both ends A frame for temporarily holding water supplied from a closed closed pipe, and a plurality of spray nozzles arranged in the lengthwise direction of the frame and spraying water into the evaporator assembly. It is formed of ABS resin and bonded to each other and then integrated by using the MC solvent (methylene cloneide) in the bonding portion, the injection nozzle is formed by successive circular body on the top of the hexagonal body, two guide plates on the top The lower end of the hexagonal body to form a wedge-shaped coupling portion therethrough through holes are formed It is.

This is because the refrigerant is circulated through the cooling system to cool the ice making pin, ice is formed as water in contact with the ice making pin, and the water supply frame is spaced apart from the ice making unit at a slight interval, and the pocket groove of the frame There is a disadvantage that the space is limited in terms of spraying water toward the spray nozzle, and the separation of the internal water supply frame (housing) is difficult because the water supply frame arrangement structure is provided at the bottom of the evaporator.

In addition, the ice-making apparatus shown in FIG. 1D of an accompanying drawing is an ice-making apparatus of the registered utility model 20-0458160, Comprising: The filter means which purifies raw water, the purified water tank which stores the water purified by the said filter means, and the said purified water tank An ice making apparatus applied to an ice water purifier comprising a cold water tank for storing purified water supplied from the cold water, cooling means for lowering the temperature of the purified water stored in the cold water tank, and ice making means for ice-making the purified water supplied from the cold water tank. The ice making means comprises: a finger-shaped ice making pin vertically extending downwardly at the lower end of the evaporator; A housing having a nozzle unit for spraying purified water in the cold water tank on the ice making pin, the nozzle unit having a flow path through which the purified water flows; A plurality of ice making pin seating holes formed in the housing and each of the ice making pins positioned at a central portion thereof; A plurality of nozzle holes formed around each of the ice making pin eyepiece holes and spraying purified water to the ice making pin; And a flow path connecting portion formed at one side of the housing to connect an external circulation flow path with the flow path in the housing.

This ice making device has a simple nozzle spraying method, but it uses a structure of a previously known immersion type evaporation tube. Therefore, the flow path connection part must be disposed at the bottom of the evaporation tube. There was a structural problem to form an opening for cleaning on the side because it is impossible, and when applied to a simple cold and hot water extracting cold water, hot water and ice using raw water, such as cold and hot water, due to the complexity of the ice making device Not only is the unit price higher, the producer is disadvantageous in that the cost is increased due to the design change of the ice making apparatus to increase or reduce the amount of ice taken out.

Therefore, it is suitable for cold and hot water to take out cold water and hot water in a simple manner such as a cold and hot water machine, and to extract a relatively small amount of ice, as well as an ice making device comprising an evaporation pipe and a flow path connection (water dish, ice tray). There has been a demand for an ice making method that can increase or decrease an ice making pin (immersion pipe) with a simple structural change.

The present invention has an object to provide an efficient ice making device for various ice demands by improving the ice making device consisting of the evaporation tube and water supply means (hereinafter referred to as water distribution means) of the conventional ice making device.

The object of the present invention is to provide an economical ice making apparatus suitable for domestic hot and cold water heaters, which does not have a large amount of ice extraction, such as domestic hot and cold water heaters.

The object of the present invention is to improve the ice making apparatus for extracting the conventional ice so that an evaporation tube having a water dispensing means and an ice fin is formed through a housing.

The present invention is to improve the ice-making means that the conventional ice-making apparatus is extracted between the lower part of the inseparable evaporator tube and the inseparable ice maker body, the upper part of the non-separable evaporator tube and the easy ice maker. It is also an object of the present invention to provide an ice making device that facilitates the separation and cleaning of the water supply means, which is inevitable by periodical cleaning due to water contamination by improving the design structure disposed between the cabs (lids).

The present invention provides an ice making apparatus by a simple water spraying structure in which the water spraying structure extends a predetermined length downward from the water distributing means, and a lower end thereof forms a nozzle hole toward the ice making pin, by improving the ice making apparatus for extracting conventional ice. The purpose is to do that.

The present invention ice making device for achieving the above object,

In an ice making apparatus in which an ice making pin of the evaporation tube is cooled to form ice by cooling a refrigerant through a predetermined cooling system, the upper part forms a water distributor having a water supply space filled with water, and the lower part evaporates the refrigerant. It is made of a pipe, the ice making pin protruding below the evaporation tube body is formed below the evaporation tube main body, and the nozzle tube for protruding downward of the water distributor main body, and sprays water to the ice making pin is disposed around the ice making pin Preferably, the water sprayed from the nozzle tube causes ice to form on the surface of the ice making pin.

The present invention for achieving the above object in the ice making device is formed by the ice is circulated through a predetermined cooling system the ice making pin is cooled in contact with the ice making pin, forming a through hole through the up, down An evaporation tube having an ice making pin formed downward; And a nozzle tube is inserted into the through hole of the evaporator tube, and the inside includes a water distributor including a water distribution space filled with water, and the nozzle tube of the water distributor is inserted from above into the through hole of the evaporator tube so that water around the ice making pin is formed. It is also achieved by an ice making machine for spraying ice to form ice.

The present invention for achieving the above object is an ice making device is formed by cooling the ice making pin is circulated through a predetermined cooling system and the ice is formed in contact with the ice making pin, the upper and lower through holes through The plate-shaped evaporator tube and the nozzle tube having the ice-making pin formed downwardly are fitted into the through-holes of the evaporator tube, and the inside thereof is achieved as an ice maker including a plate-shaped water distributor which forms a water distribution space filled with water.

The evaporation tube of the present invention for achieving the above object is preferably to form at least one ice-making pin through which the refrigerant is circulated, the water distributor is preferably at least one nozzle tube is disposed around the ice-making pin, Evaporation tube and the water distributor is preferably made of a circular plate body, or polygonal plate body.

The present invention has an effect of providing an efficient ice making device for various ice demands by improving an ice making device comprising an evaporation tube and a water distribution means of the conventional ice making device.

The present invention has an economical effect that is suitable for domestic hot and cold water heater, which does not have a large amount of ice extraction, such as domestic hot and cold water heater.

The present invention improves the ice making apparatus for extracting the conventional ice, and the water distribution means in which the water injection port is formed and the evaporation tube having the ice making pin can be realized in one body.

The present invention has been made to improve the structure of the known ice extracting device to improve the structure of the evaporation tube is located in the water spray water unit to provide an assembly method of the ice making device in which the evaporation tube is arranged under the water spray means.

The present invention improves the ice-making water supply means that is conventionally known between the ice making apparatus for extracting ice from the lower part of the inseparable evaporator tube and the inseparable ice making unit body. It is also an object of the present invention to provide an easy disassembly and cleaning of the water distribution means, which is inevitable by regular cleaning due to water contamination, by improving the design structure disposed between them.

The present invention improves the ice making apparatus for extracting the conventional ice to enable a water spray structure of a simple structure in which the water spray structure protrudes a predetermined length below the water distribution means and its lower end forms a nozzle hole toward the ice making pin. The purpose is.

1A to 1D are schematic views showing an example of a known ice making device,
2 is a perspective view of an ice making apparatus of a first embodiment of the present invention,
3a and 3b are cross-sectional views of the ice making apparatus of the first embodiment of the present invention,
Figure 4 is an exploded perspective view of the ice making apparatus of the first embodiment of the present invention,
Figure 5 is a cross-sectional view, top view of the ice making apparatus evaporation tube of the first embodiment of the present invention,
Figure 6 is a cross-sectional view, top view of the ice maker water distributor of the first embodiment of the present invention,
7 is a schematic cross-sectional view illustrating an ice making action of the ice making apparatus of the first embodiment of the present invention,
8A and 8B are schematic cross-sectional views of an example of an application of a cold and hot water machine in which ice is applied to the ice-making device of the present invention,
9A and 9B are cross-sectional views and a bottom view of a second embodiment of the present invention ice maker evaporation tube,
10 is a combined perspective view of the ice making apparatus of the second embodiment of the present invention,
11A and 11B are cross-sectional views of an ice making apparatus according to a second embodiment of the present invention.
12 is an exploded perspective view of the ice making apparatus of a second embodiment of the present invention,
13 is a bottom view of the ice making apparatus of a second embodiment of the present invention,
14 is a cross-sectional view and a bottom view of another embodiment of an ice making device evaporation tube according to a second embodiment of the present invention,
15 is a cross-sectional view and a bottom view of another embodiment of an ice making machine water distributor of a second embodiment of the present invention,
16 is an exploded perspective view of the ice making apparatus of a third embodiment of the present invention,
17 is an exploded perspective view of the ice making apparatus of a fourth embodiment of the present invention,
18 is an exploded perspective view of the ice making apparatus of a fifth embodiment of the present invention.

Hereinafter, described with reference to the accompanying drawings a preferred embodiment of the present invention ice making device as follows.

≪ Example 1 >

2 is a perspective view of an ice making apparatus of a first embodiment of the present invention, and FIGS. 3A and 3B are cross-sectional views of an ice making apparatus of a first embodiment of the present invention, and FIG. 4 is an exploded perspective view of the ice making device of the first embodiment of the present invention. 5 is a cross-sectional view and a plan view of an ice making device evaporator according to a first embodiment of the present invention, and FIG. 6 is a cross-sectional view and a plan view of a water dispenser of the ice making device according to a first embodiment of the present invention, and FIG. 7 is an ice making device of the ice making device according to a first embodiment of the present invention. A schematic cross sectional view illustrating the action.

Referring to the drawings the present invention ice making device is as follows.

The present invention ice making device (2) comprises two spaces consisting of an evaporator tube (10) and a water distributor (20), and an upper water distributor (20) forms a water distribution space (21) therein, and a lower space. Is a refrigerant circulation space 11, and extends the ice making pin 12 downward in the refrigerant circulation space 11, the nozzle tube 22 is disposed around the ice making pin 12. The nozzle tube 22 communicates with the water distribution space 21, and at least one nozzle tube 22 is preferably disposed corresponding to the ice making pin 12.

The water distributor 20 is connected to the raw water supply unit 3 from the outside to supply the raw water, the evaporation pipe 10 is an evaporation tube 10 through which the refrigerant is circulated through a predetermined cooling system, the ice making pin 12 Extends downward. A guide member (not shown) may be implemented in the ice making pin 12, and the ice making device of the present embodiment may be a disk-shaped or ring-shaped evaporation tube 10 and a water distributor 20.

The ice making device 2 of the present invention is a device in which ice is circulated through a predetermined cooling system so that the ice making pin 12 cools and freezes with moisture in contact with the ice making pin 12. The evaporation tube 10 of the plate shape and the nozzle tube 22 extending downward are formed by forming the through hole 13 penetrating downward and the ice making pin 12 downward. Fitted into the through-hole 13, the inside is coupled to the plate-shaped water distributor 20 forming a water distribution space 21 is supplied with water, when the water distributor 20 is assembled on the evaporation tube 10 when combined Structure.

In particular, the nozzle tube 22 forms an inclined surface 222 in which the lower end of the cylindrical cross section is obliquely blocked, and the nozzle hole 221 is formed in this inclined surface 222.

Further, a nozzle hole 221 is formed at the lower end of the nozzle tube 22, and the shape and number of the nozzle holes 221 are variously performed. In the present invention, one nozzle hole 221 is formed in the drawing, and the spraying direction is one direction, but may be sprayed in various directions through a design change.

The present invention ice making device 2 has a coupling structure in which the nozzle tube 22 is inserted into the through hole 13 of the evaporation tube 10, and is installed on the upper portion of the housing 1 so that a predetermined raw water supply unit 3 is provided. Connected to the raw water is supplied to the water distribution space 21 of the water distributor 20, the nozzle hole 221 of the nozzle tube 22 by cooling the ice making pin 12 by connecting the cooling system to the evaporation tube (10). As water is injected from the ice is grown around the ice making pin (12). Water is sprayed around the ice making pin 12 in the nozzle hole 221 of the nozzle tube 22, and ice is grown around the ice making pin 12 which is cooling. In this case, the water in the nozzle hole 221 may flow without being sprayed or may be sprayed with a very weak spray force. The control of the injection force, etc. can be variously installed according to the ice making device design situation.

When the growth of the ice is completed, the size of the ice is sensed and the ice making operation is stopped, and the ice making operation is performed by the defrosting operation (defrosting operation is performed by supplying instantaneous high heat to the ice making pin side through a predetermined hot gas line). Ice is separated from the pin 12 and dropped into the storage space 101 in the housing 1.

In particular, the ice maker 2 of the present invention is implemented in the cold and hot water because the water distributor 20 is assembled on the evaporation tube 10, when the internal storage space 101 to wash the aftercare for water management without replacing the internal parts There is an advantage that only (20) can be separated upward.

8A and 8B are cross-sectional views illustrating an application example of a cold / hot water machine in which ice is applied to which an ice maker of the first embodiment of the present invention is applied.

The cold / hot water machine to which the ice to which the present invention ice maker is applied is shown in the drawing is largely housing 1, ice maker 2, raw water supply unit 3, residual water support unit 4, and ice guide. 5), cold water supply unit 6, and hot water supply unit (7).

The housing 1 forms an ice making device 2, a residual water support part 4, a frosting guide part 5, and a cold water supply part 6 at an inner side thereof, and a raw water supply part 3 and a hot water supply part 7 at an outer side thereof. It is a housing that supports and partitions.

The specific configuration and operation of the ice making apparatus 2 have been described above, and thus will be omitted.

However, the evaporator tube 10 and the water distributor 20 constitutes two spaces, the upper water distributor 20 forms a water distribution space 21 therein, the lower evaporator tube 10 is A refrigerant circulation space 11 is formed therein, and the ice making pin 12 extends downward in the refrigerant circulation space 11, and communicates with the upper water distribution space 21 radially around the ice making pin 12. It is a structure in which the nozzle tube 22 extended downward is arrange | positioned.

The raw water supply unit 3 has a constant source or purified water as supply water, but forms a raw water outlet 38 through which the raw water is discharged through the control valve 39, and supplies raw water to the hot water supply unit 7 side. The structure of the hot water supply unit 7 will be described later.

The residual water support unit 4 recovers the residual water falling from the ice ice on the inner wall of the housing as described below, detects the ice ice (filled ice is filled in the storage space), and the bottom ice. Detect the lack of the state of the device while operating in the housing (1) while moving up and down.

The ice extraction guide unit 5 rotates the ice loaded in the storage space 101 through the driving motor 52 driving the rotor blade 51 so as to be guided toward the ice outlet 15.

The cold water supply unit 6 is installed by connecting a control valve 69 to the cold water outlet 68 side installed in the lower portion of the outer side of the housing 1, and communicates with the cold water outlet 68 inside the housing 1, A cold water collecting space 61 is formed to communicate with the cold water supply pipe 67 so as to be fed back to the water distributor 20 of 2), and the cold water collecting space 61 is a storage space in the housing 1. The ice contact path 62 is connected to the bottom ice contact path 62 of the 101, and the ice contact path 62 communicates with the auxiliary tank 63 formed on one side of the housing 1 as a communication path 65. The auxiliary tank 63 controls the primary water level by installing a water level adjusting means 66 on the inner upper portion thereof, and the overflow pipe 64 so that rapid drainage of the auxiliary tank 63 is made in case of sudden increase of cold water. ) Is installed on the floor.

Therefore, the cold and hot water in which ice is applied to the ice making device of the present invention is supplied as a general water source (also a bottle of water), but when there is no ice for a long time, the molten cold water is stored in the second auxiliary tank 63 to save the raw water. If the supply of the raw water is controlled and blocked primarily, but the water level of the second auxiliary tank 63 is increased due to the increase of the cold water generated through the thawing of the ice, the overflow pipe 64 is used. To be controlled and discharged from the

That is, the supply of raw water is controlled through the water level adjusting means 66 installed in the auxiliary tank 63, but when cold water or raw water is oversupplied by several instantaneous causes, it is quickly discharged through the overflow pipe 64. This ensures that the contact level with the stored ice is optimal.

In addition, a communication path 65 is formed between the cold water contact path 62 to allow the raw water of the auxiliary tank 63 to contact the ice formed on the bottom side of the storage space 101 to provide smooth cold water of the raw water. The cold water collecting space 61 on the cold water discharge water 68 side is formed to be lower than the cold water contact path 62 so that the cold water may be naturally collected.

Particularly, in the cold water collecting space 61, the cold water having a low water temperature is fed back to the water distributor 10 for the rapid deicing of the ice making device 2 in addition to the cold water export through the cold water outlet 68. Increase

The hot water supply unit 7 is supplied with raw water through the transfer pipe 34 of the raw water supply unit 3, the hot water tank 73, the predetermined heating device is implemented, the hot water outlet with the control valve 72 and the opening and closing cock is installed It consists of 71.

9A and 9B are cross-sectional views and a bottom view of a second embodiment of an ice making device evaporator of the present invention.

The evaporation tube 10 of the present invention ice making device according to the drawings is a structure in which the center is opened.

In the ice making apparatus of the present embodiment, unlike the embodiment in which the plurality of nozzle tubes 22 are disposed inside the ice making pin 12 described above, the nozzle tube 22 is disposed outside the ice making pin 12. That is, the structure of the evaporator tube 10 and the water distributor 20 has a structure in which only the nozzle tube 22 corresponding to the circumference of the ice making pin 12 is formed by forming the opening 14 in the center of the evaporator tube 10. to be. This type of evaporation tube 10 is suitable when applied to the evaporation tube 10 having a relatively small capacity, and the number of nozzle tubes 22 is also reduced.

<Example 2>

10 is an exploded perspective view of a deicing device of a second embodiment of the present invention, FIGS. 11A and 11B are cross-sectional views of an ice making device of a second embodiment of the present invention, and FIG. 12 is an exploded perspective view of an ice making device of a second embodiment of the present invention. FIG. 13 is a bottom view of an ice making device of a second embodiment of the present invention, FIG. 14 is a cross-sectional view and a bottom view of another embodiment of an ice making device evaporation tube of a second embodiment of the present invention, and FIG. 15 is a bottom view of the second embodiment of the present invention. A cross-sectional and bottom view of another embodiment of an ice making machine water distributor.

The present invention ice making apparatus according to the drawings are as follows.

The ice making device 2 of the cold / hot water machine in which the ice of the present invention is discharged has at least one ice making pin 12 connected to the evaporation tube 10 as the refrigerant is circulated through a predetermined cooling system, and the ice making pin 12 is cooled. An ice making device in which ice is formed as water in contact with the surroundings, comprising an evaporator tube 10 and a water distributor 20.

The water distributor 20 is connected to the raw water supply unit 3 from the outside to supply the raw water, and forms a water distribution space 21 therein.

The shape of the water distributor 20 forms a rectangular plate body, the upper surface of which forms a flat plate surface that is blocked from the outside, and the lower portion of the nozzle tube 22 extends downward.

The shape of the nozzle tube 22 is variously performed. In the present invention, one side of the lower end forms an inclined one side and a nozzle hole 221 is formed on one side thereof. The shape and number of the nozzle hole 221 is carried out in a variety of different forms, in the present design to form a single nozzle hole 221 in the drawing, the spraying direction is to be carried out in a variety of linear or various inclined directions Can be.

The evaporation tube 10 forms a refrigerant circulation space 11 for circulating the refrigerant in a predetermined cooling cycle from the outside, and forms an ice making pin 12 in the refrigerant circulation space 11, and a guide member inside the ice making pin 12. Numerals (not shown) are formed, and a plurality of through holes 13 are formed in a square plate-like structure in which the ice making pins 12 are formed.

The nozzle tube 22 of the water distributor 20 is assembled to the evaporation tube 10 in a stacked state through the through hole 13 to form an ice making device.

The present invention ice making device made as described above is inserted into the through-hole 13 of the evaporation pipe 10 through the nozzle tube 22 to form an ice making device. The ice making apparatus 2 is installed in the upper part of the housing 1 of the cold and hot water dispenser, and supplies the raw water of the raw water supply unit 3 to the water distribution space 21 of the water distributor 20, and at the same time, the nozzle tube. Ice is grown around the ice making pin 12 while allowing the raw water to be injected from the nozzle hole 221 of the 22.

When the growth of the ice is completed, the size of the ice is sensed by the sensor and at the same time stop the ice making operation, by separating the ice by the defrosting operation to fall into the storage space 101 in the housing (1).

In particular, since the water distributor 20 is assembled on the evaporator tube 10, the ice making device 2 is conveniently separated from the water distributor 20.

<Example 3>

16 is an exploded perspective view of the ice making apparatus of the third embodiment of the present invention.

As shown in FIG. 16, in the ice making apparatus of the present embodiment, the water distributor 20 has a disk shape as described above, but the evaporator tube 10 is a hemispherical tube through which the refrigerant is circulated (the upper part is round and the lower part is a flat pipe). Cross section), but the ice making pins 12 are circularly coupled to the evaporation tube 10. The ice making action according to this embodiment is omitted because it is the same as the first embodiment of the present invention described above.

<Example 4>

17 is an exploded perspective view of the ice making apparatus of the fourth embodiment of the present invention.

As shown in FIG. 17, in the ice making apparatus of the present embodiment, the water distributor 20 forms a square plate shape as described above, but the evaporator tube 10 is a hemispherical tube through which the refrigerant is circulated (the upper part is round and the lower part is a pipe section). 2) to form a linear form, and a plurality of ice making pins 12 are coupled to the linear evaporation tube (10). The ice making action according to this embodiment is omitted because it is the same as the first embodiment of the present invention described above.

<Example 4>

18 is an exploded perspective view of the ice making apparatus of the fifth embodiment of the present invention.

In the ice making apparatus of the present embodiment as shown in FIG. 18, the water distributor 20 forms a square plate shape as described above, and the evaporation tube 10 is a narrow narrow plate body in which a refrigerant is circulated. A plurality of ice making pins 12 are coupled to the plate evaporation tube 10.

The evaporation tube 10 is coupled to the upper and lower plate material (not shown), and the center portion of the evaporation tube 10 forms an opening, and the upper plate material forms a groove so that a refrigerant circulation passage is formed between the upper and lower plate materials after coupling. The lower plate member forms an ice making pin 12 protruding downward, thereby forming at least one ice making pin through which the refrigerant is circulated.

1: housing, 2: ice making device, 3: raw water supply, 4: water support, 5: ice guide, 6: cold water supply, 7: hot water supply, 10: evaporator, 11: refrigerant circulation space, 12: ice making Fin, 13: through-hole, 15: water outlet, 20: water distributor, 21: water distribution space, 22: nozzle tube, 221: nozzle ball, 222: inclined surface, 31: bottled water, 32: water tank, 33: water level control means, 34: transfer pipe, 341: recovery transfer pipe, 35: pumping means, 351: recovery pump, 36: first auxiliary tank, 37: control valve, 38: control valve, 39: source outlet, 41: main body, 411: Inclined surface, 412: Falling hole, 413: Stepped, 414: Wall, 415: Through hole, 416: Jaw, 42: Supporting plate body, 421: Falling hole, 422: Inclined wall, 423: Sloped surface, 43: Catch channel, 44: Contact Member, 46: sensing member, 51: rotor blade, 52: driving motor, 61: cold water collecting space, 62: ice contact path, 63: second auxiliary tank, 64: overflow pipe, 65: communication path, 66: Level control means, 67: cold water supply pipe, 68: cold water outlet, 71: hot water outlet, 72: control valve, 73: hot water tank, 74: hot water temperature sensor, 101: storage space. 102: mounting jaw,

Claims (7)

In the ice making apparatus that the ice is formed by cooling the ice making pin of the evaporation tube as the refrigerant is circulated through a predetermined cooling system,
An upper space constitutes a water distribution space, and a lower portion of the housing comprises two spaces forming an evaporation tube through which a refrigerant is circulated;
One or more ice making pins protruding downward from the evaporation tube; And
And a nozzle tube protruding downward from the water distribution space in the housing so as to spray water on the ice making pin and arranged around the ice making pin.
Ice is sprayed toward the ice making pin ice making device characterized in that the ice is formed around the ice making pin. In the ice making apparatus that the ice is formed by cooling the ice making pin of the evaporation tube as the refrigerant is circulated through a predetermined cooling system,
An evaporation tube forming at least one through-hole and at least one ice-making pin protruding downward; And
An ice making apparatus including a water distributor comprising an inside of the water distribution space filled with water and a lower portion of the nozzle tube inserted into the through hole of the evaporation tube and simultaneously projecting downward to spray water on the ice making pin. In the ice making apparatus, the ice is formed by cooling the ice making pin is circulated through a predetermined cooling system,
Plate-shaped evaporation tube to form a through-hole through the upper, lower and at least one ice-making pin protruding downward; And
An ice making apparatus including a plate-shaped water distributor which protrudes downward so that the nozzle tube is fitted into the through-hole of the evaporator tube and forms a water distribution space filled with water. delete The nozzle tube according to any one of claims 1 to 3, wherein
An ice making apparatus, characterized in that the lower end portion of the cylindrical cross section is inclined to form a clogged inclined surface, and a nozzle hole is formed on the inclined surface. The evaporation tube according to any one of claims 1 to 3, wherein
The upper and lower plates are coupled to each other, and a central portion thereof forms an opening, and the upper plate forms grooves to form a coolant circulation passage between the upper and lower plates after coupling, and the lower plate forms an ice making pin that protrudes downward. Ice making apparatus, characterized in that. The water distributor of claim 2 or 3, wherein
At least one nozzle tube is disposed around the ice making pin.

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