KR200467123Y1 - Hot and cold water dispenser for having ice maker - Google Patents

Abstract

The present disclosure relates to a cold or hot water machine in which ice is suitable for a home or a simple cold and hot water machine with relatively small discharge capacity of ice, cold water and hot water.
As the refrigerant circulates through the housing 1 and the cooling system, the ice making protrusion is cooled to form a through-hole 11 penetrating up and down so that ice is formed as water in contact with the ice making protrusion. An evaporation tube (10) forming a (12); The nozzle tube 22 is formed to fit in the through hole 11 of the evaporation tube 10, the inside is formed of a water distributor 20 consisting of a water supply space 21 filled with water through the hole of the evaporation tube (10) 11, the nozzle tube 22 of the water distributor 20 is inserted from above, the ice making machine (2) for spraying water around the ice making projections 12 to form ice, the raw water supply unit (3), the storage space Detects the ice of the ice in the 101, and detects the lack of the ground ice, but the remaining ice guide combined with the guide (4) and the ice guide (5) operating while moving up and down in the housing (1) And a cold water supply unit 6 including an ice contact path 62 at the bottom of the storage space 101, a cold water collecting space 61, a second auxiliary tank 63, and a cold water outlet 68, and a hot water supply unit ( It provides a cold and hot water on which ice containing 7) is iced.

Description

Hot and cold water dispenser for having ice maker

The present invention relates to a cold / hot water machine in which ice is iced, and in particular, to a simple cold / hot water machine in which ice, cold water and hot water are discharged, and whose water discharge capacity is relatively small. It is about cold and hot water.

In general, the cold and hot water supply is classified into a water purifier provided with a filter for purifying the raw water supplied therein, and a cold and hot water supplying the drinking water supplied separately without cold water or hot water without having a function of purifying the raw water supplied.

The cold and hot water is a device that is stored in a specific container to convert the bottled water at room temperature provided by the bottled water provider to cold or hot water so that the user can be provided as much water as desired.

The configuration and operation of such a cold and hot water machine will be described as follows.

In order to control the temperature of the water, a heater is provided in the case of the cold / hot water heater, which includes a cooling device for cooling the water and an electric heater for heating the water, and the water cooled by the cooling device and the heating device and the heated water are separated. Cold and hot water tanks are provided for storage. The cold water tank and the hot water tank are respectively connected to the cold water cock and the hot water cock to allow the consumer to take an appropriate amount of water from the outside of the case. In use, it is seated on the top cover of the cold water heater base so that the inlet of the bottled water faces downward. When the bottle is settled, the water inside the bottle flows down and fills the cold water tank, and the water in the cold water tank moves through the connecting pipe to fill the hot water tank, and the water filled in the cold water tank and the hot water tank is filled in the evaporator and the heater, respectively. By maintaining a constant temperature.

Use can be drunk by taking out the desired amount of water through the cold and hot water extraction coke, the amount of 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. The cold and hot water machine can be directly used to directly take out the liquid bottled water or cooking water, it was not possible to obtain ice through the bottled water. In order to control the temperature of the water, a heating device including a cooling device for cooling the water and an electric heater for heating the water is provided inside the case of the cold / hot water heater, and the water cooled by the cooling device and the heating device is heated. Cold water tanks and hot water tanks are provided to be stored separately. The cold water tank and the hot water cock are connected to the cold water tank and the hot water tank to allow the consumer to take an appropriate amount of water from the outside of the case, respectively.

In the accompanying drawings, Figure 1a is a cold and hot water of the conventional utility model No. 20-0142635 known in the early days, which is a cold water reservoir for storing cold water, a cold and hot water separator for separating the bottled water into cold water and hot water, a cooler, compressor, responsible for the cooling function, It consists of a condenser, capillary, dryer, silencer, heater to keep hot and cold water at a constant temperature, hot water tank to store hot water, cold water supply pipe, hot water supply pipe, drain pipe, drain nipple and bucket support ring. In the cold and hot water constitution as described above, the bottled water supplied from the bottled water supported by the bucket support ring installed on the upper part of the cold and hot water machine is stored in the cold water tank and the condensation of water due to the warming up and down of the cold water tank by the operation of the cooler lower portion of the cold hot water separator Since the cold water is separated into hot water, the hot water is stored in the hot water tank through the cold and hot water separator. Accordingly, in the cold water, the low-temperature and low-pressure gas refrigerant is converted into a high-temperature high-pressure by a compressor, and the gaseous refrigerant supplied to the condenser is supplied to the condenser, thereby dissipating the heat absorbed in the high-temperature, high-pressure gas refrigerant to cool the liquid. Is converted to. The low-temperature and high-pressure liquid refrigerant is supplied to the cooler installed in the outer wall of the cold water tank by the refrigerant converted from the capillary tube to the low-pressure liquid cold water.The bottled water and the liquid refrigerant in the cold water tank exchange heat, and the liquid refrigerant is cooled by the gas cold vein. In addition, the gas refrigerant converted into the heat exchanger is recovered through the dryer after the moisture remaining in the gas refrigerant is removed, and then returned to the compressor. The above process is repeated to cool the bottled water. The hot water supply pipe is supplied through the hot water supply pipe while maintaining the bottom temperature of the heater installed on the outer wall of the hot water tank.

In addition, there is a known cold and hot water heater 10-0853445. This is a cold water tank unit including a cold water reservoir for storing the drinking water supplied from the auxiliary tank for storing drinking water as shown in Figure 1b and a circulation pump for supplying the drinking water stored in the cold water reservoir to the immersion type ice making unit; And an immersion type ice making unit cooling cold drinking water supplied from the cold water storage container to produce cold water or ice, wherein an upper surface of the cold water storage container is formed by an inclined grill, and the cold water manufactured by the immersion type ice making unit is the grill. Passing through the cold water storage, the ice produced by the immersion type ice making unit is a cold and hot water machine with an ice making function to move to the ice reservoir along the upper surface of the cold water storage.

In addition, another example of a cold and hot water device known as the prior art published 10-2012-0009994 is shown as shown in Figure 1c.

The cold and hot water machine and the case is provided with an upper cover to which the bottled water is coupled; A cold water tank and a hot water tank provided inside the case to receive the bottled water of the bottled water and cooling and heating the bottled water as a cooling means and a heating means, and a cold water mounted in the case to receive cold water and hot water in the cold and hot water tanks. In the cold and hot water machine made of hot water cock, the bottled water bottle coupling member is detachably coupled to the upper portion of the upper cover of the case, the bottled water bottle coupling member is seated with an open top so that the inlet of the bottled water is seated on the upper cover An upper support formed with a groove; A water bottle holder formed integrally with the upper support bottom and formed with a protrusion formed in the central region, a locking end inserted into the through hole of the protrusion is formed, and a lower screw portion is formed at the outer periphery, and a fastening nut As the lower fitting portion is fastened and connected to the upper fitting portion, and the air inlet hole and the external bottled water inlet hole is formed in the lower region and the upper region, the bearing bearing formed through the central air inlet hole through which the ball bearing is seated Insertion separator consisting of an upper fitting portion having; An inner inlet pipe having an upper end inserted into and fixed to an upper portion of the upper fitting part to form an inner bottled water inlet hole in accordance with an outer bottled water inlet hole, and having a lower air inlet groove formed at an interval with an upper inner circumference of the insertion separator; An upper cap detachably screwed to the upper fitting portion and having an upper air inlet hole formed therethrough; And a cold / hot water separation tube connected horizontally to the lower end of the inner inflow pipe so as to separate and supply the bottled water into the cold water tank and the hot water tank.

Since the device for making ice of a cold and hot water machine in which the conventionally known ice is discharged forms a complicated structure, the timely consumption is large, the amount of ice making is unnecessarily large, and the supply of cold water also forms a cooling method of a cold water tank by a cooling cycle. Or ice makers are disadvantageous in terms of structure, unit cost, and economics to apply known ice makers, and the composition of the apparatus is complicated to apply the cold water supply method of ice water purifiers of known ice contact method, and is important for maintenance of cold / hot water machine. It had an unfavorable assembly method of disassembling the whole housing at the separation surface.

The present invention is a new way of supplying the cold water to avoid the problems of the conventionally known cold and hot water is suitable for use in the home where there is not a lot of ice making amount, smooth supply of cold water as well as ice, quick defrosting The aim is to provide a low cost, simple cold and hot water heater as possible.

The present invention has an object to provide a cold and hot water machine having an ice making device that is easy to clean the inside of the water-filled by assembling an ice making device of the existing cold and hot water.

In order to achieve the above object, the cold and hot water in which the present invention is iced,

As the refrigerant circulates through the housing and the cooling system that separates the inside and the outside, the ice making protrusion is cooled to form a through hole through which the ice penetrates up and down to form ice as water that contacts the ice making protrusion. The nozzle tube of the water distributor is formed from the top of the evaporator tube through the water distributor formed in the evaporator tube and the nozzle tube is formed so as to be fitted into the through hole of the evaporator tube, the water supply space filled with water inside the evaporator tube An ice making device for forming ice by spraying water around the projections, and forming a raw water outlet through a control valve, a raw water supply unit for supplying water as a constant water source, and sensing a full ice state and detecting a lack of ground ice. Residual guide part for both ice detection and operation that moves up and down in the housing, and a rotor blade rotating at a predetermined speed as a driving motor is installed on the bottom of the storage space. The cold water supply pipe communicates to the cold water outlet side and returns to the water distributor of the ice making machine, and the height is different from the ice contact path at the bottom of the storage space. Cold water collection space to form the storage space, the ice contacting channel communicating with the auxiliary tank formed on one side of the housing, the water level control means at the top, to control the supply level of the primary raw water, sudden cold water, raw water Auxiliary tank provided with an overflow pipe so that rapid drainage occurs, a cold water supply unit consisting of a cold water outlet opening and closing as a control valve in the lower outer side of the housing, a hot water tank with a predetermined heating device, a control valve and a cock It consists of the installed hot water outlet includes a hot water supply unit for supplying the raw water is supplied through the transfer pipe of the raw water supply unit It is achieved as a cold or hot water generating machine which is chulbing ice.

The present invention for achieving the above object is a cold and hot water is iced out,

As the refrigerant circulates through the housing and the cooling system that separates the inside and the outside, the ice making protrusion is cooled to form a through hole through which the ice penetrates up and down to form ice as water contacting the ice making protrusion. The nozzle tube of the water distributor is formed from the top of the evaporator tube through the water distributor formed in the evaporator tube and the nozzle tube is formed so as to be fitted into the through hole of the evaporator tube, the water supply space filled with water inside the evaporator tube An ice making device for forming ice by spraying water around the projection, and a bottle of water and a tank to which the raw water of the bottle is supplied are located above the housing, and installed to return the cold water overflowed from the auxiliary tank of the cold water supply unit. The auxiliary tank to be installed under the housing and connected to the pumping means, and to supply the raw water to the hot water supply and cold water supply Raw water supply unit consisting of a conveying pipe made of a predetermined pipeline, the ice level to detect the lack of ice, and to detect the lack of the ground ice, while operating in the housing to move up and down in the housing, combined with a guide and a driving motor The ice-water supply pipe communicates with the water-driving guide unit which installs a rotor blade rotating at a predetermined speed at the bottom of the ice-saving space to guide the loaded ice to the water-discharging port side, and communicates with the cold-water outlet side and returns to the water distributor of the ice-making apparatus, Cold water collection space to form a predetermined reservoir space by varying the height of the ice contact path on the side, an ice contact path communicated as a communication path with the auxiliary tank formed on one side of the housing, having a water level control means at the top, It controls the water supply level of raw water, and constructs an overflow pipe to allow rapid drainage in case of rapid cold water and increase of raw water. One auxiliary tank, the cold water supply unit consisting of a cold water outlet opening and closing as a control valve in the lower part of the housing, a hot water reservoir implemented with a predetermined heating device, and a hot water outlet provided with a control valve and opening and closing cock through the feed pipe of the raw water supply unit It is achieved as a cold water heater in which ice is supplied, including a hot water supply unit for supplying hot water.

The present invention for achieving the above object is the raw water supply unit of the cold and hot water ice cubes,

The water supply tank is positioned above the housing, and the auxiliary tank is installed below the housing to return the cold water overflowed from the auxiliary tank of the cold water supply unit. Preferably, the pumping means is connected to the water tank so as to be pumped to the water tank between the auxiliary tank side and the pumping means, and the water pipe and the hot water supply part and the cold water supply part are also connected to the water tank.

The present invention for achieving the above object is the ice making device of the cold and hot water dispenser can be carried out by the evaporator tube and the water distributor is made of a circular plate or a rectangular plate body.

The present invention avoids the problems that conventional cold and hot water has, and has a new method of supplying cold water, which is suitable for households without a large amount of ice making, and provides a low cost simple cold water heater capable of supplying ice and cold water smoothly and quickly making ice. The present invention has the effect of providing a cold and hot water machine that can be easily separated by assembling an ice making device that makes ice in a new manner and is very easy to clean the water filled interior.

1a to 1c are schematic views showing an embodiment of a conventionally known cold and hot water machine,
Figure 2a, 2b is a view of the first embodiment of the cold and hot water machine in which the ice of the present invention is iced out,
3 is a schematic view of a second embodiment of the cold and hot water dispenser ice of the present invention,
Figure 4 is a schematic diagram of a third embodiment of the cold and hot water dispenser ice of the present invention,
Figure 5 is a perspective view of the remaining ice detection combined guide of the hot and cold water dispenser ice of the present invention,
6a and 6b are cross-sectional views showing an example of the remaining water guide combined residual water guide of the cold and hot water machine in which the ice of the present invention is discharged,
7A and 7B are cross-sectional views of a part of the cold / hot water machine to which the water-saving combined water guide portion of the cold / hot water machine in which the ice of the present invention is iced is applied.
8 is a perspective view of a cold and hot water ice maker ice cube is iced out the present invention,
9 is an exploded perspective view of the ice-cold water ice maker deicing device of the present invention ice,
10 is a cross-sectional view, a plan view of a cold / hot water evaporator tube in which ice of the present invention is iced out,
11 is a cross-sectional view, a plan view of a cold and hot water water distributor in which the ice of the present invention is iced out,
12 is a cross-sectional view of the cold and hot water dispenser ice of the present invention,
Figure 13 is a combined perspective view of another embodiment of the cold and hot water ice maker ice cube is iced out the present invention,
Figure 14 is an exploded perspective view of another embodiment of the ice cold water ice machine deicing device is iced out,
FIG. 15 is a cross-sectional view and a bottom view of an evaporation tube according to another embodiment of a cold / hot water ice making device in which ice of the present invention is discharged.
FIG. 16 is a cross-sectional view and a bottom view of a water distributor of another embodiment of a cold / hot water ice maker in which ice of the present invention is iced;
17, 18, 19 is an exploded perspective view of other embodiments of the ice-cold water ice maker deicing device is iced out.

Hereinafter, described with reference to the accompanying drawings a preferred embodiment of the hot and cold water ice is ice of the present invention as follows.

≪ Example 1 >

2A and 2B of the accompanying drawings are views of the first embodiment of the cold / hot water machine in which the ice of the present invention is iced.

The hot and cold water dispenser of the present invention shown in the drawings ice is largely housing (1), ice making device (2), raw water supply unit (3), the receptacle combined with the remaining water guide (4), the ice guide ( 5), cold water supply unit 6, and hot water supply unit (7).

The housing (1) is the raw water supply unit (3) disposed on the outside, the ice making device (2), except for the hot water supply unit (7), the residual water guide unit (4), the ice guide unit (5), cold water supply unit (6) ) Is a housing for partitioning the inside and the outside of the housing 1.

The ice making apparatus 2 is composed of an evaporator tube 10 and a water distributor 20, and detailed configuration and operation will be described later.

The raw water supply unit 3 supplies water to the first auxiliary tank 63 side of the cold water supply unit 6 to be described later through the transfer pipe 34 and at the same time through the control valve 39, the raw water outlet 38 It is connected to be supplied to), and is connected to be supplied to the hot water supply unit 7 at the same time. At this time, as described later, the cold water overflowed from the first auxiliary tank 63 of the cold water supply unit 6 is discharged through the overflow pipe 64, and the cold water outlet 68 of the cold water supply unit 6 and Communicating cold water supply pipe 67 is recycled to the water distributor 20 by the pumping means (35). The raw water supply unit 3 branches the transfer pipe 34 in various directions to supply raw water to the hot water supply unit 7 and the cold water supply unit 6 as well as the housing 1.

The remaining ice detection combined use guide portion 4 recovers the remaining water from the ice ice on the inner wall of the housing as described below, and the ice is filled in ice (the iced ice is filled in the storage space 101). Detects and detects the lack of floor ice while operating in the housing (1) 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 forms an ice contact path 62 in contact with the ice in the storage space 101, and communicates with the cold water outlet 68 to be fed back to the water distributor 20 of the ice making machine 2. Cold water supply pipe 67 is formed so as to communicate with the cold water collecting space 61, the cold water collecting space 61 is connected to the ice contact path 62 of the bottom side of the storage space 101 in the housing (1), The ice contact path 62 communicates with the first auxiliary tank 63 formed on one side of the housing 1 as a communication path 65. The first auxiliary tank 63 controls the water supply level of the primary raw water by installing the water level adjusting means 66 on the inner upper portion thereof, and makes rapid drainage when the cold water and the raw water of the first auxiliary tank 63 increase. The overflow pipe 64 may be provided on the bottom side so as to be supported. Cold water is taken out by connecting the control valve 69 to the cold water outlet 68 side installed in the lower portion of the outer housing (1).

The hot water supply unit 7 supplies raw water through a feed pipe 34 for supplying raw water of the raw water supply unit 3, a hot water tank 73 having a predetermined heating device and a temperature sensor 74, and a control valve ( 72) and a hot water outlet 71 provided with an opening / closing cock.

Therefore, the hot and cold water in which the ice of the present invention is discharged is a general water supply source, but when there is no ice for a long time, the molten cold water is stored in the second auxiliary tank 63 to save raw water, and the supply of raw water is sudden. Is controlled and blocked primarily, but the water level of the secondary secondary tank 63 due to the increase of the cold water generated through the thawing of ice is controlled as the water level adjusting means 66 and the overflow pipe 64, To be discharged.

That is, the supply of raw water is controlled through the water level adjusting means 66 installed in the second auxiliary tank 63, but if the cold water or raw water is oversupplied by various causes at once, it is quickly through the overflow pipe 64. This ensures that the water level in contact 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 first 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 collection space 61 on the cold water export 68 side is to allow cold water to be collected naturally.

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. You can also increase it.

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.

The hot and cold water in which the present invention ice is shown in Figure 2b is discharged as shown in Figure 2a, the housing 1, the ice making device 2, the raw water supply unit 3, the remaining water guide portion (4), the ice guide Part 5, cold water supply unit 6, and hot water supply unit 7 is divided into, in particular, the raw water supply unit 3 is to be located above the housing 1, the water tank 32 to which the raw water is supplied, The first auxiliary tank 36 is installed below the housing 1 while the first auxiliary tank 36 is installed to return the cold water overflowed from the second auxiliary tank 63 of the cold water supply unit 6, and the bottled water tank 31 is first supported. Installed together on the tank 36, the pumping means 35 is connected to the transfer pipe 34 so as to be pumped to the water tank 32 between the first auxiliary tank 36 and the pumping means 35, The water tank 32, the hot water supply unit 7, and the cold water supply unit 6 is also made by connecting to the transfer pipe (34).

<Example 2>

Figure 3 of the accompanying drawings is a schematic diagram of a second embodiment of the cold and hot water machine in which the ice of the present invention is discharged.

The hot and cold water dispenser of the present invention ice shown in the figure is largely housing 1, the ice making device 2, the raw water supply unit 3, the remaining water guide portion 4 and the ice guide portion 5 ), Cold water supply unit 6, and hot water supply unit (7).

Unlike the cold and hot water supply system of the above-described embodiment, the water supply system of the present invention ice of the present invention has a bottled water bottle 31 and a water tank 32 supplied with raw water from the bottled water bottle 31 above the housing 1. It is positioned and connected to the housing 1 and the hot water supply unit 7 through a transfer pipe 34 connected to the water tank 32, but over from the first auxiliary tank 63 of the cold water supply unit 6 of the housing 1 Raw water in the bottled water bottle 31 through the raw water recycling transfer pipe 341 by the raw water recycling pumping means 351 is installed in the auxiliary tank 36 installed below the housing 1 to recycle the cold water flown down To be connected to the supplied water tank (32).

The ice making apparatus 2 includes an evaporation tube 10 and a water distributor 20, and specific configurations and operations will be described later.

The remaining ice detection combined use guide portion 4 recovers the remaining water from the ice ice on the inner wall of the housing as described below, and the ice is filled in ice (the iced ice is filled in the storage space 101). Detects and detects the lack of floor ice while operating in the housing (1) 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 second auxiliary tank 63 formed on one side of the housing 1 as a communication path 65. The secondary tank (63) controls the water supply level of the primary raw water by installing a water level control means (66) on the inner upper portion thereof, so that sudden cold water of the second secondary tank (63) increases rapidly when raw water increases. The overflow pipe 64 may be provided on the bottom side.

Therefore, the cold and hot water machine in which the ice of the present invention is iced is generally used as a raw water source on the market, but when there is no ice ice for a long time, it melts and exceeds the capacity of the cold water supply tank 63 so as to save the overflowed raw water. The water discharged to the hollow tube 64 is collected in the second auxiliary tank 36 installed in the lower part of the housing 1, and the water is supplied to the second auxiliary tank 36 and the raw water of the bottled water tank 31. (32) through the raw water recycling transfer pipe (341) and the raw water recycling ping means 351 to be recovered to the water tank (32).

The cold water level for making cold water in the housing (1) is controlled by the water level adjusting means (66) installed in the second auxiliary tank (63). By keeping the discharge through the hollow tube 64, the contact level with the stored ice is maintained in an optimal state.

In addition, a communication path 65 is formed between the cold water contact path 62 to allow the raw water of the second 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 export 68 side is to allow the cold water contact path 62 to naturally collect the cold water.

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. It is supposed to be high.

The hot water supply unit 7 supplies raw water through a feed pipe 34 for supplying raw water of the raw water supply unit 3, a hot water tank 73 having a predetermined heating device and a temperature sensor 74, and a control valve ( 72) and a hot water outlet 71 provided with an opening / closing cock.

<Example 3>

Figure 4 of the accompanying drawings is a schematic diagram of a third embodiment of the hot and cold water dispenser ice of the present invention.

The hot and cold water dispenser of the present invention ice shown in the figure is largely housing 1, the ice making device 2, the raw water supply unit 3, the remaining water guide portion 4 and the ice guide portion 5 ), Cold water supply unit 6, and hot water supply unit (7).

In particular, the raw water supply unit 3 of the present embodiment,

The tank 32 to which the raw water is supplied is positioned above the housing 1, and the auxiliary tank 36 is installed to return the cold water overflowed from the auxiliary tank 63 of the cold water supply unit 6 to the housing ( 1) while installing the water bottle (31) on the auxiliary tank 36 together with the installation below, between the auxiliary tank (36) side and the water tank (32) by connecting the raw water recycling transfer pipe (341) It is pumped by the recycling pumping means 351, and the housing (1) including the hot water supply unit 7 and the cold water supply unit 6 from the water tank 32 is made by connecting to the feed water supply pipe (34) .

The present invention of the present embodiment of the ice-cold water dispenser housing (1), the ice making device (2), the receptacle guide combined residual water guide (4), ice guide (5), cold water supply (6), hot water supply (7) Is as described above, the specific description will be referred to the above-described embodiment.

However, the residual water guide structure and the ice making device of the cold / hot water machine in which the designed ice is iced will be described in detail below.

Figures 5 (a), (b) of the accompanying drawings is a perspective view of the water-saving combined water guide device of the present invention ice making device, Figure 6a, 6b is a cross-sectional view of the water-saving combined water guide device of the present invention ice making device, Figure 7a , 7b is a cross-sectional view of the cold and hot water machine for explaining the action of the water-saving combined water guide device of the present invention ice making device.

Referring to the full-water detection combined guide device (4) of the ice making device of the present invention ice making device according to the drawings as follows.

The remaining water guide combined residual water guide device of the present invention ice making device is composed of a first support plate 41 and the second support plate 42 and the sensing unit 46 for ice detection.

The first support plate 41 forms an inclined surface 411 whose upper surface is inclined toward the center, and forms a plurality of through holes 415, and forms a drop hole 412 in the center of the inclined surface 411, and the inclined surface 411. The outer end of the wall 414 vertically bent to form a step 413 in the lower portion.

The second support plate 42 extends from the lower drop hole 412 of the first support plate 41 to form an inclined surface 423 which is inclined in the opposite direction to the inclined surface 411, and the end of the inclined surface 423 is bent. An inclined wall portion 422 is formed to form a water collecting passage 43 between the stepped portion 413.

Since the sensing unit 46 uses the generalized sensing means as it is, a specific installation structure and a specific sensing process are omitted, and in the present invention, the height thereof increases as the first and second supporting plates 41 and 42 move upward. It is installed inside the housing 1 to detect the ice state.

Due to this ice detection and the remaining water guide structure, the ice is dropped into the drop hole 412, and can be moved upward in the iced state of the dropped ice, and a water collecting passage 43 is formed between the inner wall of the storage space to maintain the residual water. Guides, stops the ice making operation as a predetermined output signal by detecting the ice level as its moving height according to the upward movement of the first and second supporting plates 41 and 42, When the ice is made and the storage space becomes empty, the operation is repeated again.

 The present invention further includes a contact member 44 having an inclined surface which guides the rotational guide of the ice to receive the upward force by contacting the ice ice in the storage space 101 after installation. It will be closer to the ice ball side.

The first support plate 41 and the second support plate 42 of the present invention is preferably made of a disc shape. However, it is possible to implement the square. Although it is made of squares, most of them have the same structure and principle except for some changes in the part.

Particularly, the first guide plate 41 and the second support plate 42 are preferably integrated with each other, but sometimes the dropping hole 412 of the first support plate 41 may be used depending on the installation site. It is possible to carry out in a prefabricated manner by separating the end portion so as to communicate with the falling hole 421 of the second support plate 42 on the side.

An upper surface portion having a first drop hole 412 having upper and lower openings formed in a central portion formed in a disc shape, being inclined low toward the first drop hole 412 and having formed a plurality of residual through holes 413. 411 and a wall portion 414 perpendicular to the circular edge outside the upper surface portion 411, and a first step 413 is formed in the middle of the wall portion 414 to form a wall portion 416 having a smaller diameter. It is also possible to implement the support plate 41 and the second support plate 42 assembled inside the bottom of the first support plate 41.

The second support plate 42 forms a second drop hole 421 corresponding to the first drop hole 412 at the center of the disc-shaped inclined surface 423 to communicate with the water collecting passage between the wall portion 414. The wall portion 422 is formed at the extended end of the inclined surface 423 so as to form 43.
Thereafter, the first and second support plates 41 and 42 are assembled to contact the contact member 44 which guides the rotational guide of the ice to the bottom of the inclined surface 423 so as to receive the upward force by contact with the ice accumulated in the storage space 101. It is preferable to install dogs.

In addition, the present invention, as shown in Figure 6b, the first support plate 41 forms an inclined surface 411, the upper surface is inclined toward the center, and forms a plurality of through holes 415, fall in the center of the inclined surface 411 A ball 412 is formed, the outer end of which is guided from the inner wall of the housing 1, and the second support plate 42 is opposed to the inclined surface 411 at the drop hole 412 of the first support plate 41. An inclined inclined surface 423 is formed to extend, but the inclined surface 423 has a shorter length than the inclined surface 411, and an outer end of the inclined surface 423 forms a beveled inclined wall portion 422 between the housing 1 and the inner wall. It can also be implemented in a structure in which a water collecting passage 43 is formed in the.

The assembling and assembling structure of the first support plate 41 and the second support plate 42 of the ice-collecting device combined residual water guide device 4 of the above-described ice making device is the first falling hole 412 side of the first support plate 41. As shown in FIG. 6A, the end portion is coupled to the second drop hole 421 side end of the second support plate 42 or the same drop hole 412 but inclined in opposite directions to the inclined surfaces 411 and 423. It is preferable that the upper and lower sides of the water collecting passage 43 form an integrated type in which the first support plate 41 and the second support plate 42 are integrally formed.

As shown in FIG. 7A, the stepped 413 is formed on the inner wall of the housing 1 of the icemaker and the cold and hot water machine to which the icemaker's combined residual water guide device of the ice maker is applied. The mounting jaw portion 102 is located in an initial seating state.

Thereafter, as shown in FIG. 7B, the iced ice drops and accumulates from the bottom in the storage space 101 to reach the contact member 44. Thus, the inclined surface (not shown) of the contact member 44 is accumulated by the accumulated ice. As the ice is rotated to guide the ice-covering to find the storage space 101 to store the ice, and some of the ice is to push up the remaining ice guide device (4) of the ice detection device. In the figure, the residual water guide device (4) of the ice making device, which rises at intervals of "α", contacts the lowest point of the first detection sensor 46 and outputs it as a detection signal to make ice by operating various known control circuits. The cooling cycle of the device 2 is stopped to stop the ice making operation.

On the other hand, when there is no ice filled from the bottom of the housing 1 storage space 101, the second detection sensor 47 installed near the bottom of the housing 1 operates to operate the ice making apparatus 2 so that ice making is performed. To be done. Of course, the second detection sensor 47 is also applicable to a thermometer or a temperature sensor.

Since the sensing unit 46 uses the generalized sensing means as it is, a specific installation structure and a specific sensing process are omitted, and in the present invention, the height thereof increases as the first and second supporting plates 41 and 42 move upward. Detects the ice state.

Due to the ice sheet and the remaining water guide structure, the ice is dropped into the drop hole 412, and the ice can be moved upward in the iced state of the dropped ice, and a water collecting passage 43 is formed between the inner wall of the storage space to maintain the residual water. The height of the first and second supporting plates 41 and 42 is increased to guide the guide, and the ice making operation is stopped as a predetermined output signal by detecting a full ice state. When the ice is made and the storage space becomes empty, the operation is repeated again.

8 is a perspective view of an ice making device of a cold and hot water machine in which ice of the present invention is discharged, FIG. 9 is an exploded perspective view of a cold and hot water ice maker in which ice is discharged, and FIGS. 10 (a) and (b) are ice cold and water ice makers in which ice is iced. Fig. 11 (a), (b) is a cross-sectional view, a top view of the water distributor of the cold and hot water ice maker ice-ice ice apparatus, Fig. 12 is a cross-sectional view of the operation of the ice-cold water ice maker ice water ice device is iced. to be.

Referring to the drawings, the ice making apparatus 2 of the cold / hot water machine in which ice of the present invention is discharged will be described as follows.

Ice making device (2) of the cold and hot water generator in which the ice of the present invention is iced comprises two spaces consisting of an evaporation tube (10) and a water distributor (20), the water distributor (20) of the upper water distribution space ( 21, the lower space constitutes the refrigerant circulation space 11, and extends the ice making protrusion 12 downward in the refrigerant circulation space 11, and radially water above the ice making protrusion 12. The nozzle tube 22 communicating in the distribution space 21 may be disposed to extend downward.

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 a refrigerant circulated through a predetermined cooling system to cool the ice making projections 12 and the ice making projections 12 Ice forms as water in contact with the surroundings. Of course, a guide member (not shown) is formed inside the ice making projection.

Specifically, the ice making apparatus 2 is an ice making apparatus in which ice is formed as water contacting around the ice making protrusions while the refrigerant is circulated through a predetermined cooling system, and the upper and lower through-holes 13 are formed. The plate-shaped evaporation tube 10 and the nozzle tube 22 are formed into the through hole 13 of the evaporation tube 10, and the inside is filled with water. As a plate-shaped water distributor 20 constituting the supply space 21, the water distributor 20 is stacked and assembled on the evaporation tube (10). On the other hand, the nozzle hole 221 is formed in the lower end of the nozzle tube 22, the shape and number of the nozzle hole 221 is carried out in various ways. In the present invention, one nozzle hole 221 is formed in the drawing, and the spraying direction may be sprayed in one direction or in various directions.

The ice making device 2 formed as described above is inserted from above so that the nozzle tube 22 is fitted into the through hole 13 of the evaporation tube 10, and is installed on the upper portion of the housing 1. The water supply of the water distributor 20 is performed. As the raw water of the raw water supply unit 3 is supplied to the space 21, the water is injected from the nozzle hole 221 of the nozzle tube 22 by cooling of the ice making protrusion 12 through the evaporation tube 10. 12) Ice grows around. When the growth of the ice is completed, the size of the ice is detected by a sensor (not shown) and the ice making operation is stopped at the same time. The defrosting operation (defrosting operation is instantaneously applied to the ice making projection side through a predetermined hot gas circulation line). Ice is separated from the ice making protrusions 12 by circulating high heat) and dropped 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 maker 2 may be configured to maintain the water distributor 20 during maintenance such as replacement of internal parts when cleaning the internal storage space 101 of the cold / hot water machine. There is a convenience to separate up.

13 is an exploded perspective view of a still another embodiment of the ice cold water ice machine deicing device of the present invention ice, Figure 14 is an exploded perspective view of yet another embodiment of the ice cold water ice maker deicing device, the invention ice, Figure 15 Fig. 16 is a bottom view of another embodiment of a chiller and water ice maker in which ice is iced, and FIG. 16 is a cross-sectional view and a bottom view of an evaporation tube of another embodiment of the chiller and water ice maker in which the ice cube is iced. A cross-sectional view and a bottom view of a water distributor of another embodiment of a cold / hot water ice maker.

Referring to the ice making device (2) of the cold and hot water dispenser ice of the present invention according to the drawings as follows.

The ice making device 2 of the cold and hot water machine in which the ice of the present invention is discharged is an ice making device in which ice is formed as water contacting around the ice making protrusions by cooling the refrigerant through a predetermined cooling system. 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 can be variously implemented. 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 also forms a refrigerant circulation space 11 for circulating the refrigerant in a predetermined cooling cycle from the outside, and forms an ice making protrusion 12 in the refrigerant circulation space 11, and a guide member inside the ice making protrusion 12. (Not shown) is formed, and a plurality of through holes 13 are formed on the plate on which the ice making projections 12 are formed. The nozzle tube 22 of the water distributor 20 is fitted into the through hole 13 of the evaporator tube 10 to be assembled in a stacked state.

The ice making device 2 of the cold / hot water machine in which the ice of the present invention made up as described above is inserted from above so that the nozzle tube 22 is fitted into the through hole 13 of the evaporation tube 10, and is installed on the upper part of the housing 1. The nozzle hole 221 of the nozzle tube 22 by cooling the ice making protrusion 12 through the evaporation tube 10 while supplying the raw water of the raw water supply unit 3 to the water supply space 21 of the water distributor 20. As water sprayed from the ice is formed around the ice making projection (12). When the ice grows, the size of the ice is detected by a sensor (not shown) and the ice making operation is stopped at the same time. Ice is separated from the ice making protrusions 12 by circulating high heat) and dropped 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 maker 2 of the cold / hot water generator, in which the ice of the present invention is iced, is maintained when the internal storage space 101 of the cold / hot water machine is cleaned. There is a convenience to separate the water distributor 20 at the time.

17, 18 and 19 of the accompanying drawings are exploded perspective views of other embodiments of the ice-cold water ice maker deicing device is iced out.

Referring to still another embodiment of the ice making device of the present invention cold water heater according to these drawings.

First, the ice making device of the present invention cold water heater shown in Figure 17, the water distributor 20 forms a disk as described above, the evaporator tube 10 is a hemispherical tube (circular upper part and flat lower part is circulating refrigerant). Pipe cross section), but the deicing protrusions 12 are circularly coupled to the evaporation tube 10.

Meanwhile, in the ice making device of the present invention cold water heater shown in FIG. 18, 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 portion is round and the lower portion is a flat pipe). It is a cross-sectional shape) is formed in a linear form extending in two lines, the deicing protrusions 12 are coupled to the linear evaporation tube (10). In addition, in the ice making device of the present invention cold water heater shown in Figure 19, the water distributor 20 forms a square plate shape as described above, the evaporation tube 10 is a narrow narrow plate body through which the refrigerant is circulated square plate shape inside To achieve this, here the plate-shaped evaporation tube 10, the deicing protrusions 12 are coupled to a number.

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 Projection, 13: through-hole, 15: outlet, 20: water distributor, 21: water supply space, 22: nozzle tube, 221: nozzle ball, 31: bottled water bottle, 32: water tank, 33: level control means, 34: transfer pipe 341: transfer pipe for recovery, 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: Drop hole, 413: step, 414: wall portion, 415: through hole, 42: support plate body, 421: falling hole, 422: inclined wall portion, 423: inclined surface, 43: catch channel, 44: contact member, 46: sensing member, 51 : Rotor blade, 52: drive 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 bottle, 74: hot water temperature sensor, 101: storage space. 102: mounting jaw,

Claims (7)

In the cold and hot water where the ice is iced,
A housing 1 in which a storage space 101 is formed;
A refrigerant circulation space 11 circulated by a predetermined cooling system is formed, and upper and lower through-holes 13 are formed, and an evaporation tube 10 having an ice making protrusion 12 is formed at a bottom thereof, and water A water distributor 20 is formed, and the water distributor 20 includes a nozzle tube 22. The nozzle tube 22 of the water distributor 20 is formed in the through hole 11 of the evaporation tube 10. An ice making device (2) inserted through and installed in the housing (1) with a nozzle tube (22) disposed around the ice making protrusion (12);
A raw water supply unit 3 for supplying raw water to the second auxiliary tank 63 and the hot water supply unit 7 of the cold water supply unit 6 by using the feed water supply pipe 34 from the raw water inlet;
Detecting the ice of the ice in the storage space 101, the lack of ground ice to detect the lack of ice, the remaining water guide portion (4) installed to be movable in the housing (1);
Ice storage guide unit 5 for guiding the ice loaded from the bottom of the storage space 101 to the outlet 15 side;
The cold water supply pipe 67 communicates with the cold water outlet 68 and returns to the water distributor 20 of the ice making device 2, and communicates with the ice contact path 62 at the bottom of the storage space 101 to store the predetermined water. Cold water collection space 61 to form a space, the second auxiliary tank 63 formed on one side of the housing 1 and the ice contact path 62 to communicate as a communication path 65, the water level adjusting means ( 66) to control the water level for cold water primarily, and the second auxiliary tank (63) having an over-flow pipe (64), the outside of the housing (1) so that the rapid drainage of cold water, raw water increases rapidly Cold water supply unit 6 consisting of a cold water outlet 68 that is opened and closed as a control valve 69 in the lower portion; And
Ice-cold water heater containing a predetermined heating device, a hot water tank 73 having a temperature sensor 74, and a hot water supply unit 7 composed of a control valve 72 and a hot water outlet 71 provided with an opening / closing cock. . In the cold and hot water where the ice is iced,
A housing 1 in which a storage space 101 is formed;
A refrigerant circulation space 11 circulated by a predetermined cooling system is formed, and upper and lower through-holes 13 are formed, and an evaporation tube 10 having an ice making protrusion 12 is formed at a bottom thereof, and water A water supply space 21 is formed, and the nozzle tube 22 is formed of a water distributor 20 formed so as to communicate, the nozzle tube 22 of the water distributor 20 in the through-hole 11 of the evaporation tube (10) An ice maker 2 inserted into the nozzle tube 22 around the ice making protrusion 12 and installed in the housing 1;
A water tank 32 installed to receive raw water from the bottled water bottle 31 is positioned above the housing 1, and is located between the water tank 32, the hot water supply unit 7, and the second auxiliary tank 63 of the cold water supply unit 6. It is connected to each of the feed pipe 34 so that the raw water is supplied, and the cold water overflowed in the second auxiliary tank (63) is collected in the first auxiliary tank (36), and then the recovery pump (351), easy to recover Raw water supply unit (3) connected to the water tank (32) by the pipe (341);
Detecting the ice of the ice in the storage space 101, the lack of ground ice to detect the lack of ice, the remaining water guide portion (4) installed to be movable in the housing (1);
Ice storage guide unit 5 for guiding the ice loaded from the bottom of the storage space 101 to the outlet 15 side;
The cold water supply pipe 67 is connected to communicate with the cold water outlet 68 side and returned to the water distributor 20 side of the ice making machine 2, and the cold water collection unit communicates with the ice contact path 62 at the bottom of the storage space 101. It is provided with the ice contact path 62 and the water level control means 66 which are communicated as the communication path 65 with the 2nd auxiliary tank 63 formed in the water space 61, the one side of the housing 1, and A second auxiliary tank 63 having an overflow pipe 64 and a control valve 69 outside the housing 1 to control the feed water level of the raw water and to rapidly discharge the cold water and increase the raw water. Cold water supply unit 6 consisting of a cold water outlet 68 that is opened and closed as; And
It consists of a hot water tank 73, a predetermined heating device, and a hot water outlet 71 provided with a control valve 72 and an opening / closing cock. Cold and hot water machine is iced, including the hot water supply portion 7 to discharge water. The method of claim 2, wherein the raw water supply unit 3,
The first auxiliary tank 36 is installed so that the water tank 32 to which raw water is supplied is located above the housing 1, and is installed to return the cold water overflowed from the second auxiliary tank 63 of the cold water supply unit 6. ) Is installed below the housing (1) and the bottled water tank (31) is installed together on the first auxiliary tank (36), and the recovery pump (351) between the first auxiliary tank (36) side and the water tank (32). ), Cold and hot water that is iced out by connecting to the transfer pipe (341). The ice making apparatus 2 according to any one of claims 1 to 3,
An evaporation tube 10 having upper and lower through holes 11 formed therein and at least one ice making protrusion 12 formed downward; And
The nozzle tube 22 is formed to protrude downward so as to fit in the through hole 11 of the evaporation tube 10, the inside is made of a water distributor 20 consisting of a water supply space 21 filled with water This cold water heater. The ice making apparatus 2 according to any one of claims 1 to 3,
An evaporation tube (10) consisting of a refrigerant circulation pipe having at least one ice making protrusion (12); And
The nozzle tube 22 is formed to protrude downward so as to fit into the through-hole 11 of the evaporation tube 10, the inside is made of a plate-shaped water distributor 20 that forms a water supply space 21 filled with water A cold and hot water machine where ice is frozen. According to any one of claims 1 to 3, The remaining ice detection combined use guide 4,
The central portion forms a falling hole 412 and forms an inclined surface 411 which is inclined toward the falling hole 412, and forms a plurality of through holes 415, and an outer end of the inclined surface 411 is formed of the housing 1. The first support plate 41 guided from the inner wall and the inclined surface 423 inclined in the opposite direction to the inclined surface 411 in the drop hole 412 of the first support plate 41, the inclined surface (423) A second support plate 42 having a length shorter than that of 411, and the end of the inclined surface 423 forms a bent inclined wall portion 422 to form a water collecting passage 43 between the inner wall of the housing 1 and the first support plate 42. The sensing unit 46 installed on the inner wall side of the housing 1 to sense the ice level as its moving height according to the upward movement of the second support plates 41 and 42 and the ice in the storage space 101 It consists of a contact member 44 formed in the inclined surface to guide the rotation of the ice in the lower surface portion to receive the lifting force by contact with the ice, the ice state of ice in the storage space 101 Cold or hot water generating machine to be detected and at the same time ice chulbing, characterized in that for sensing the low condition of the bottom ice. According to any one of claims 1 to 3, The remaining ice detection combined use guide 4,
The upper surface forms an inclined surface 411 which is inclined toward the center, and forms a plurality of through holes 415, a drop hole 412 is formed in the center of the inclined surface 411, and an outer end of the inclined surface 411 is vertically formed. An inclined surface inclined in a direction opposite to the inclined surface 411 in the first support plate 41 and the dropping hole 412 of the first support plate 41, forming a bent wall portion 414, and having a step 413 formed therein; And a second supporting plate 42 which forms a water collecting passage 43 between the stepped portion 413 and the end portion of the inclined surface 423 by forming a bent inclined wall portion 422. In the storage space 101 and the sensing unit 46 installed on the inner wall of the housing 1 so as to detect the full ice state as the moving height thereof as the first and second supporting plates 41 and 42 move upward. It consists of a contact member 44 formed in the inclined surface to guide the rotational guidance of the ice in the lower surface portion to receive the lift force by contact with the ice ice, frozen in the storage space 101 Sensing the full ice level of the state, and at the same time cold or hot water generating machine which the ice, characterized in that for sensing the low condition of the bottom ice chulbing.

Images