KR20120126488A - Piece ice manufacturing implement - Google Patents

Abstract

PURPOSE: An ice cube making device is provided to make a temperature distribution of an internal surface of a drum by making the spraying pressure of a coolant being supplied to the drum uniform, thereby making an ice texture uniform. CONSTITUTION: An ice cube making device is comprises an icing drum, a cutting blade, and a coolant circulation path. An icing drum is installed in a water supply tank so that a water screen is formed. A compressive coolant is evaporated in the inside of the icing drum so that the water screen of an icing drum surface is frozen. Ice on the icing drum surface is cut with a cutting blade. The coolant circulation path is installed to uniformly spray a coolant to a vaporization chamber.

Description

[0001] PICECO ICE MANUFACTURING IMPLEMENT [0002]

The present invention relates to a freezing drum of a carousel freezing device, and more particularly, to a freezing drum having an excellent heat transfer and a pressure in the freezing drum being maintained constant to uniformize the jetting pressure of the refrigerant, The present invention relates to a ice-making device for ice cubes, in which the entire surface of the drum is cooled at a uniform cooling temperature to increase the production of ice, and to make ice ice uniform.

An ice maker using a normal refrigeration cycle can produce a variety of edible ice such as ice cream, frozen edible ice, and the like by freezing edible ice, ice powder, juice, have.

In a conventional ice-making ice-making apparatus, a rotary ice-making drum is provided in a water supply tank to constitute a water film on the surface of a ice-making drum, a refrigerant vaporization chamber is formed inside the ice-making drum, A device for vaporizing the compressed refrigerant in the rotary drum to freeze the water film on the surface of the ice making drum and to make ice and ice powder by contacting a cutting knife with the ice on the ice drum surface is disclosed in Korean Patent Registration No. 178693 have.

Such a conventional apparatus for manufacturing ice cubes has a predetermined effect of increasing the cooling efficiency by forming a refrigerant vaporizing chamber in the rotary drum. However, since the main shaft of the one side of the ice-making drum supporting the refrigerant circulation path tube is constituted by both end openings for assembling the sealing at both ends of the shaft, fabrication, assembly and maintenance work of the main tube and the main shaft are inefficient. In addition, since the inner end of the path tube provided in the ice-making drum is connected and assembled to the support shaft on the other side of the ice-making drum, interference between the main assembly and the main assembly causes interference between the main tube and the main shaft, And the pathway is easily aged to cause durability problems

 In addition, since the capillary tubes for distributing the refrigerant having the same length are brought close to the tubes of the ice-making drum, the pressure to be discharged from each of the capillaries from the beginning to the end of the refrigerant outlet is different, It was uneven.

In addition, since the ice cubes were cut by a cutting blade provided on the diameter line of the ice-making drum, the ice that was not sufficiently hardened was collected while being cut and melted by the surface temperature.

Therefore, it is preferable that the cooling temperature is uniformly distributed on the surface of the drum and the function of the cooling cycle is improved, so that the cooling efficiency is enhanced.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances and provides an improved ice-making drum unit, which effectively recovers cooling oil in the drum to improve the performance of the refrigerant cycle and uniformize the jetting pressure of the refrigerant supplied to the drum, And the temperature distribution of the inner surface of the ice-making device is made uniform, so that the ice-making quality can be uniformized.

Another object of the present invention is to provide a method of controlling the temperature of a drum by providing a single discharge nozzle in a refrigerant path tube installed in a drum and spraying the refrigerant at a uniform spray pressure using a refrigerant outlet formed by two capillaries in the spray nozzle, Shaped recovery tool to recover the liquefied refrigerant and the refrigerating oil accumulated in the lower part of the ice-making drum, thereby forming a refrigerant vaporization homogenizing space to homogenize the ice material and increase the production of ice, .

According to an aspect of the present invention, there is provided a rotary ice making machine including a rotating ice making drum provided in a water supply tank to form a water film on a surface of a ice making drum, vaporizing the compressed refrigerant in the ice making drum to freeze a water film on a surface of the ice making drum, In an ice maker for cutting ice with a cutting blade, an aluminum-made cylindrical body and an ice maker made up of left and right sealed covers fixed to one side of the body by a sealing ring such as an O (O) drum; The ice making drum is composed of members for manufacturing ice cubes. The ice cubes are provided at the bottom of the ice-maker drums at an acute angle from the center of the ice-maker drums so as to extend the ice- Cutting blade: An open spindle attached to one side cover of the ice-making drum, the other side of which is supported by the sealing cap so that it can be opened and closed with a sealing cap, and is connected to the spindle, A refrigerant circulation path pipe in which the other end is an open end; A refrigerant gas supply block provided adjacent to the open end of the refrigerant pipe for homogeneous refrigerant injection in the body of the ice-making drum in the vaporizing chamber, and a double capillary tube capable of discharging two refrigerant gas Refrigerant outlets having free ends; And an absorption-type arcuate recovery means for communicating with the outer surface of the refrigerant path tube to absorb vaporized refrigerant or semi-liquefied refrigerant and refrigerant oil.

As described above, according to the present invention, since the ice making drum is constituted by a new material body, a new injection mechanism is provided in the improved pipe for circulating the refrigerant, and the discharge port and the arc-shaped recovery port are formed in the injection mechanism, And the formation of a refrigerant vaporization homogenizing space, it is possible to increase the production of ice and to homogenize the ice.

1 is a front view showing an ice maker applied to the present invention,
FIG. 2 is a side view showing a structure of a ice-making drum assembly installed in an ice-making chamber and a structure for recovering ice cubes de-iced by the assembly according to an embodiment of the present invention;
FIGS. 3 and 4 are perspective views showing the inside of an ice-making drum for explaining an ice-making drum assembly of the ice-cube ice maker according to the embodiment of the present invention.

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

FIG. 1 is a front view showing an ice maker cited in the present invention, and FIG. 2 is a side view schematically showing a ice maker drum assembly installed in an ice maker.

As shown in the figure, the cabinet 11 capable of being moved and fixed is provided with an ice making chamber 12 which is opened and closed by a transparent door at the upper portion, and a machine room 13 is provided at the bottom.

In the ice making drum assembly provided in the ice making chamber 12, the ice making drum 10 and the ice containing container 14 are provided on the base F of the ice making chamber. The process in which ice is frozen and cut in the ice-making drum 10 and stored in the ice storage container 14 is viewed through the transparent door of the ice-making chamber. The frozen ice is made by freezing the edible ice, the ice powder, the juice, the milk with the juice, the flavored drink, or the iced drink according to the freezing material, and can produce a variety of edible ice such as ice cream,

2, the ice-making drum assembly is installed on the base F. The ice-making drum 10 has a drive shaft 18 supported on the upper portion of the base F on one side thereof and attached to the drive shaft 18 The output drive shafts of the working chain gear 17 and the deceleration motor M1 for the ice-making drum drive are connected to the chain 16 wound around the drive gear 15 so that the driving force of the deceleration motor M1 ).

A sealing 19 is provided at the bottom of the ice-making drum 10 and a liquid freezing material W such as edible water, juice drink, etc. is supplied to the sealing 19. The supply water level of the ice-making material is a height at which the bottom of the ice-making drum 10 is immersed in the liquid freezing material W. When the ice-making drum 10 is rotated to the cooling state in a state where the ice-making material W is supplied to the sealing ring 19, a water film is formed on the surface of the ice-making drum 10 and freezes. The frozen ice of the menstrual film is cut into a cutting blade 36 provided in close proximity to the ice-making drum 10, and the cut ice is collected and supplied to the collection container 14. It is noted that the cutting blade 36 is installed horizontally at the center of the ice-making drum 10 at a predetermined angle, for example, at an acute angle of 20-40 degrees in accordance with the principles of the present invention, Begin freezing from the top and ensure maximum time before cutting by the cutting edge.

Therefore, in the present invention, a rotary ice-making drum 10 is provided so as to be submerged in the water supply tank 19 to form a water film on the surface of the ice-making drum, and the compressed refrigerant is vaporized in the ice- As the water film is frozen, it is possible to make ice for a rather long time. Therefore, the hardest piece of ice is cut with the cutting blade. In addition, with this configuration, the cutting blade 36 can be easily installed adjacent to the water supply tank 19, making it easy to manufacture, assemble and repair the entire ice maker drum assembly, to prevent vibration interference against refrigerant gas sealing, .

3 and 4 are perspective views illustrating the internal structure of the ice-making drum assembly of the ice-crushed ice maker according to the embodiment of the present invention.

The ice-making device for ice cubes according to the present invention realizes an ice-making drum assembly having a new-type ice-making drum (10). The ice-making drum (10) is provided with a refrigerant circulation pipe (20). The path tube 20 has a refrigerant outlet 27 directed toward a position of the outlet of the water tank constituted by the discharge end thereof and an absorbing and collecting receptacle 28 for absorbing the vaporized refrigerant or semi-liquefied refrigerant and the refrigerant oil Is used to spray the refrigerant at a uniform spray pressure, thereby forming a refrigerant vaporization homogenizing space, thereby increasing ice production and homogenizing ice ice.

To this end, an opening spindle 31 is fixed to one side cover of the ice-making drum 10, a circulation path tube 20 is positioned inside the vaporizing chamber 26, A sealing device (not shown) is installed.

One side of the open main spindle 31 is attached to one side cover 33 of the ice-making drum 10 and the other side is supported by a bearing on the base F. At the same time, And the room is configured to be opened and closed by the sealing cap 38 from the outside.

The refrigerant circulation pipe 20 has a bearing on one side and a sealing cap 38 on an open spindle 31 and is supported by a bearing and is supplied with a compressed refrigerant supplied through a flow path between the outer tube 21 and the inner tube 22 (P) is supplied to the vaporizing chamber 26 through the refrigerant discharge port 27 as the vaporizing means and then supplied to the end of the inner pipe 22 which is open to the vaporizing chamber 26 in the gas state G, 28) are connected to each other so as to absorb refrigerant and refrigerant oil in a vaporized state or undergoing liquefaction.

The assembly screw of the open main spindle 31 and the sealing cap is provided with an assembly screw and a rubber O-ring so that the seal tightening pressure of the sealing device installed inside the main shaft 31 when the open spindle 31 is assembled with the circulation path tube 20 It is possible to control the sealing of the sealing device in an optimal state by adjusting it with a screw.

Since the sealing chamber is opened and closed by the sealing cap, the sealing pipe can be separated from the open spindle 31 by separating the sealing device from the circulating pipe 20 after separation from the open spindle 31, It is easy to manage and assembled in the reverse order so that assembly at the time of manufacture is easy, and the sealing device can be assembled precisely and quickly at the time of manufacture.

The circulation path tube 20 has a double refrigerant discharge pipe 27 coupled to the refrigerant gas supply circulation 40 and the free ends 41 and 42 of the refrigerant discharge pipe 27 are connected to the vaporizing chamber 26, It is possible to avoid the adverse effect that the rotational vibration of the ice-making drum 10 is transmitted to the sealing device through the inner pipe of the pipe 20, thereby preventing leakage of the gas due to vibration interference, deterioration of the sealing device, Can be prevented.

The circulation path tube 20 is directly opened in the vaporizing chamber 26 so that the compressed refrigerant P supplied through the flow path between the outer tube 21 and the inner tube 22 flows into the refrigerant discharge tube 27 of the vaporizing means, Shaped recovery pipe 28 is provided at the open end of the inner pipe 22 open to the vaporizing chamber 26 in the state of the gas G after being supplied to the vaporizing chamber 26 through the vaporizer 26, The refrigerant and the freezing oil are absorbed and recovered to the cooler, thereby reducing the recovery resistance due to the absorption of all the refrigerant and the freezing oil.

 The injection block 40 is assembled into the compressed refrigerant supply passage between the outer tube 21 and the inner tube 22 as the refrigerant vaporizing means and the discharge tube 27 is composed of the double capillary tube and extends from the injection block 40, Is wound around the outer circumferential surface of the outer tube 21 of the compressor 20 to a substantially intermediate position and its free end portions 41 and 42 supply the compressed refrigerant P to the vaporizing chamber 26 in a vaporized state.

In addition, the arc-shaped recovery port 28 is connected to the outer tube 22 by the coupler 29 and absorbs the vaporized refrigerant, the refrigerant undergoing liquefaction, and the refrigerant oil to recover the refrigerant in the vaporization chamber 26, Shaped pipe 44 connected to the bottom wall 29 and bent downward in a U shape and having a lower hole 45 formed at the lower part in the middle of the circular arc to absorb the freezing oil accumulated in the lower part of the ice making drum, The upper hole 45 formed at the upper portion absorbs the refrigerant undergoing liquefaction and absorbs the vaporized refrigerant at the free end where one side of the arc is opened.

 The dual refrigerant discharge pipe 27 and the arc-shaped recovery port 28 constituted as described above form the vaporizing chamber 26 as a vaporizing gas homogenizing space in the ice making drum 10 so that the inside of the ice making drum 10 The gas discharge pipes 27 extend from the outer tube 22 to the vaporization chamber space in a length of 1/3 to 1/4 of the drum diameter to form a gasified gas homogenizing space and one circulation path tube 20 for the coolant injection By providing two capillaries in the nozzle block and its nozzle block, it is possible to increase the gasification rate of the compressed refrigerant and equalize the cooling temperature distribution to uniform the cooling temperature distribution on the surface of the ice drum, thereby increasing the amount of ice produced and producing high- can do.

The freezing end portions 41 and 42 of the refrigerant discharge port 27 facing the position where the ice making drum 10 is moved out of the water tub are located in the circulation pipe 20 of the ice making drum assembly of the present invention, And a homogenizing space for the refrigerant vaporization is formed by using the arc-shaped collecting holes 28, so that not only the production of ice but also the homogenization of the ice crystal can be achieved.

Although the description of the ice-making device according to the present invention has been described with reference to the accompanying drawings, it is to be understood that the present invention is by no means restricted to the most preferred embodiments of the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

10: Deicing drum
20: Path tube for circulation
27: Refrigerant discharge pipe
28: Round type recovery
31: Open spindle

Claims (3)

A rotating ice-making drum is provided in a water supply tank to form a water film on the surface of the ice-making drum. The compressed refrigerant is vaporized in the ice-making drum to freeze the water film on the surface of the ice-making drum. In the apparatus,
A deicing drum comprising a cylindrical body of aluminum material and sealed left and right covers having a main shaft fixed to one side of the body and a rotary shaft fixed to the other side by sealing such as an O-ring; The ice making drum is composed of members for manufacturing ice cubes. The ice cubes are provided at the bottom of the ice-maker drums at an acute angle from the center of the ice-maker drums so as to extend the ice- Cutting blade:
An open spindle attached to one side cover of the ice-making drum, the other side of which supports the sealing chamber so as to be opened and closed with a sealing cap on the bearing side of the base, and an open spindle installed in the center of the sealing chamber, A refrigerant circulation path tube made to be an open end;
A refrigerant gas supply block provided adjacent to the open end of the refrigerant pipe for homogeneous refrigerant injection in the body of the ice-making drum in the vaporizing chamber, and a double capillary tube capable of discharging two refrigerant gas Refrigerant outlets having free ends;
And an absorption-type arcuate recovery means connected to the outer tube of the refrigerant pipe for vaporizing refrigerant or semi-liquefied refrigerant and for absorbing refrigerant oil. The method according to claim 1,
The circular arc-shaped recovery port forms a hole in the upper and lower portions in the middle of its circular arc so as to absorb the refrigerant, the liquid refrigerant in the liquid phase, and the refrigerant oil accumulated in the lower portion of the ice-making drum, and the refrigerant gas is recovered in the arc- A piece of ice deicing device. The method according to claim 1,
Wherein the cutting blade is provided at one side of the water supply tank at an acute angle of 20 to 40 degrees with respect to the horizontal rather than the center of the ice making drum so that the time for freezing the water film formed on the ice making drum surface is extended.

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