KR102155224B1 - Improved compressing structure of auger type ice maker - Google Patents

Abstract

Disclosed is an auger shaft outer-surface that compresses ice transported by an auger coaxially in the ice making cylinder to form a hard ice column from which moisture is removed, and at the same time cut it into chips. ) It relates to an auger-type ice maker having an improved compression structure that separates and assembles the structure into a pressure head and a tubular body, wherein ice-making water is supplied from a water supply tank to an ice-making cylinder through a water supply pipe, and an ice-making water supply unit for draining through a drain pipe; A refrigeration cycle unit (A) in which refrigerant is circulated and controlled through a compressor, a condenser, a dehydrator, an expansion valve, and an evaporation pipe; And an ice-making cylinder composed of upper and lower cover parts and a cylindrical shape, the evaporation pipe wound on the outer circumference of the ice-making cylinder, an auger composed of an auger shaft of an integral spiral blade rotating in the ice-making cylinder, and a casing covering the outside of the evaporation pipe. Including; an ice-making unit made of, and the upper cover portion of the ice-making cylinder,
A cylindrical body in which fixing holes that are coupled to the ice making cylinder are formed in a circular shape, several extrusion furnaces are radially formed in the fixing holes, and a coupling hole is formed at the center thereof; And a compression member comprising a columnar insertion shaft portion inserted into the coupling hole of the tubular body, and a pressing head in which the upper portion of the insertion shaft portion is pressed and cut through an inclined surface to guide the ice discharged from the extrusion furnace. It is possible to provide an auger-type ice maker having an improved compression structure including.

Description

Improved compressing structure of auger type ice maker

The present invention relates to an auger-type ice machine, and in particular, ice transported by an auger coaxially in an ice-making cylinder is compressed at a low speed to form a hard ice column from which moisture is removed, and at the same time, a chip shape ( It relates to an auger-type ice machine having an improved compression structure that separates and assembles the auger shaft outer-surface structure cut with chips into a pressure head and a cylindrical body.

A generally known auger ice maker cools the ice making cylinder to below the freezing point by circulating and circulating the reduced pressure refrigerant in the evaporation tube fixedly mounted in a spiral shape in close contact with the outer circumference of the ice making cylinder, and this is a refrigeration cycle (compressor, condenser to obtain ice) And a refrigerant circulation system in which an expansion valve is connected by a refrigerant pipe, hereinafter referred to as a cooling cycle, A) freezes the ice-making water flowing into the ice-making cylinder, and the ice layer growing by this freezing is scraped upwards by an auger and transported. It is introduced into the compression path of the pressure head and compressed (dehydrated) in this compression path, and is compressed and grown into a hard ice column (M) from which most of the moisture has been removed, and this ice column (M) is pushed out of the compression path. By contacting the upper ice cutting part (pressing head), the force in the outward direction is added to form a chunk of ice cut into chips of an appropriate size (hereinafter referred to as chipped ice), and the chipped ice is stored in the storage unit. It is known to do.

The pressure head for forming the compression passage of such an auger-type ice machine is, for example, in Japanese Unexamined Patent Application Publication No. 8-189736, in a radial direction from the outer periphery of the main body made of a bearing that rotatably supports the upper end of the auger. A plurality of compression ribs protruding and extending in the axial direction are installed in a cylindrical axial direction on the outer periphery of the auger shaft, and a compression passage whose cross section is approximately outwardly concave between each of the compression ribs is formed, and it is perpendicular to the upper portion of the compression passage. It forms a connected head, but forms an ice cut with an inclined part.

An auger-type ice maker equipped with such a pressure head is an auger-type ice machine composed of an ice-making cylinder, auger, and a refrigerant pipe. The inclination angle of the outwardly inclined ice cutting part installed on the upper side of the compression passage of the pressure head is 35 to 45. It has also been proposed that the diameter of the upper end head of the pressure head having a cut portion is set to 27 to 37 mm.

The pressure head forming the ice column (M) in this way forms a compression path to form a bearing (bush) coupling structure between the upper auger shaft, but slowly grows by freezing between the spiral blade of the auger and the ice maker. A phenomenon that is strongly pushed in the direction of the auger axis (center axis) by the ice making pressure of the ice layer, that is, a radial load in the radial direction occurs due to the difference in pressure generated between the ice making areas between the spiral blades. The left and right flows of the shaft center slightly deviate from the upper shaft number based on the lower shaft number as the center axis of the auger shaft. These left and right flows eventually cause friction between the rotating shaft and the lip members (compression ribs, compression ribs) that slip and come into contact therewith, causing abrasion of the inner wall of the ice making cylinder and the organ.

In the related art, as shown in FIG. 1 of the accompanying drawings, a bush has been inserted and installed on the upper inner circumferential surface of the pressure head to prevent abrasion due to contact between the pressure head and the auger shaft when rotating the auger shaft. The bush is installed between the rotating shaft of low speed rotation and the fixed shaft and is inserted to prevent abrasion and damage of parts in contact with the rotating and fixed shafts due to friction of other housings during rotation, and most auger-type ice machines have the aforementioned radial load. Bush has been adopted to prevent it.

On the other hand, since the compression path of the pressing head (including bush) installed on the concentric cylindrical shaft in the auger rotation shaft in the ice making cylinder must be formed radially from the pressure head body, the compression path is formed at regular intervals on the outer peripheral surface of the cylindrical metal having the central shaft hole. In order to form several compression ribs at radially precise intervals for this purpose, precision of mold design or metal processing is required for processing them, and there are significant problems such as processing time for processing them and excessive labor due to precision mold processing. .

As described above, there is also a problem of complicated structural design due to the insertion of the bush, because the bush mounting structure to prevent radial load due to the auger shaft pulling from the inner circumferential surface of the conventionally known pressure head must also be implemented in the pressure head. According to the installation, there is a problem that it is difficult to compact the size of the auger ice maker. In addition, there is a problem that corroded foreign substances and gray substances are generated due to abrasion in contact with the bush for a long time.

In addition, since the pressure head forming several compression passages is integrally formed in a cover shape that covers the top of the ice making bin, the cutting pressure head is a metal processing of the integrated pressure head and the integral compression passage with an inclination angle. The difficulty of the city is very high, and the manufacturing process takes a long time, and the processing of the compression part made of such a precision metal material is a factor in raising labor costs, and the cost of the metal material forming the cutting part is very high. It also acted as an impediment to purchase and distribution.

In addition, as the connection structure between the lower end of the auger shaft and the drive shaft for transmitting the rotational force is combined as a cylindrical seating cover on the spline shaft, there is a problem of wear (bush) due to the radial load, as well as an unnecessary complicated connection structure for coupling the spline shaft. There has been a need for improvement.

Registered Patent 10-0858261

Patent Publication 10-2003-0069462 Patent Publication 10-2011-0126313

In view of the above-described conventional problems, the present invention makes the extruded ice of the ice making cylinder rise vertically into the compression passage, but compresses and contacts at an inclined surface to form an upper cover part (compression part) with a pressure head that discharges it into square ice. Its purpose is to improve the difficulty in precision machining.

An object of the present invention is to improve the problems of a bush for preventing a radial load and preventing leakage of an upper auger shaft of an ice making cylinder in view of the above-described conventional problems.

The present invention separates the structure of coupling the upper cover of the compression unit consisting of several compression passages and the pressing head to the ice-making cylinder into a pressurization head with an integral compression unit having an inclination angle, and an upper cover unit forming several compression passages. Thus, the purpose of this is to improve the problems caused by the precision processing of the compression unit.

In view of the problems and necessities of the prior art, the present invention is divided into an integral pressure head of a compression unit having an inclination angle and an upper cover portion having several compression passages, but has a simple assembly structure of synthetic resin material, not metal processing. Another object is to provide an auger-type ice maker with an improved compression structure.

An object of the present invention is to provide an auger-type ice maker in which the reduction of rotational force due to the insertion of a bush between the auger shaft and the compression unit and generation of foreign matter due to bush abrasion is improved in view of the above-described conventional problems.

Another object of the present invention is to provide an auger-type ice maker having an improved connection structure between an auger shaft and a drive shaft in consideration of the above-described problems and necessities of the related art.

Auger-type ice maker having an improved compression structure according to the present invention for achieving the above object,

Ice-making water supply unit for supplying ice-making water from the water supply tank to the ice-making cylinder through a water supply pipe and draining through the drain pipe; A refrigeration cycle unit (A) in which refrigerant is circulated and controlled through a compressor, a condenser, a dehydrator, an expansion valve, and an evaporation pipe; And an ice-making cylinder composed of upper and lower cover parts and a cylindrical shape, the evaporation pipe wound on the outer circumference of the ice-making cylinder, an auger composed of an auger shaft of an integral spiral blade rotating in the ice-making cylinder, and a casing covering the outside of the evaporation pipe. Including; ice making unit made of,

The upper cover portion of the ice-making cylinder includes a cylindrical body having a circular shape formed with fixing holes that are coupled to the ice-making cylinder, and radially forming several extrusion furnaces inside the fixing holes, and forming a coupling hole at the center thereof; And a compression member comprising a columnar insertion shaft portion inserted into the coupling hole of the tubular body, and a pressing head in which the upper portion of the insertion shaft portion is pressed and cut through an inclined surface to guide the ice discharged from the extrusion furnace. It can be achieved as an auger-type ice maker having an improved compression structure including.

In order to achieve the above object, it is preferable that the cylindrical body of the upper cover part of the auger-type ice maker having an improved compression structure, the coupling hole of the pressure head, and the insertion part form a screw-fitted spiral.

In order to achieve the above object, the lower end of the auger shaft of the auger-type ice maker having the improved compression structure of the present invention forms a coupling groove forming a square surface, and the upper end of the drive shaft forms a square shaft corresponding to the square surface of the coupling groove. It is desirable to do it.

The separated pressure head of the auger-type ice maker having the improved compression structure of the present invention for achieving the above object may be made of synthetic resin.

The auger-type ice maker of the present invention has a conventional structure in which a pressure head consisting of several compression passages and a pressure head is formed on the upper portion of the ice making cylinder, that is, the upper structure of the ice making cylinder, that is, a cutting part on a flat body formed by radially forming several compression passages. By improving the point of metal processing of the pressure head with one body, the compression part of the pressure head integral with the inclination angle on the top of the ice making cylinder and the disk-shaped upper cover part formed with several compression passages can be separated and assembled and fastened. The pressure head having an inclination angle is improved by a simple structure that can be simply screwed and assembled to the structure of the upper cover of the ice making cylinder.

The present invention has an effect of improving the bush-free structure by improving the problems of the upper cover part of the ice making cylinder having a pressure head for discharging the extruded ice of the ice making cylinder into square ice and the leakage preventing bush at the upper end of the auger shaft.

The present invention has been to provide a sanitary auger-type ice maker in which the generation of foreign substances due to wear and decrease of rotational force due to insertion of a bush between an auger shaft and a compression rib is improved.

The present invention provides a coupling structure on each side of the auger shaft and the drive shaft instead of the spline shaft coupling when the auger shaft and the drive shaft are connected, so that a simple connection to prevent wear in the auger shaft and the ice making cylinder according to the radial load between the auger shaft and the drive shaft Came to provide structure.

Conventionally, in the manufacturing and processing of the compression path, several extrusion paths are formed radially on the upper cover part of the flat plate, and the pressing head having an inclination angle in the vertical direction of the extrusion path must be protruded. Invention is manufactured by assembling and bonding to the center of the upper part of the ice-making cylinder (upper cover part) by simply making the pressurizing head having an inclined angle surface separately from the metal or synthetic resin material. ,The processing process is reduced, the simpler process is shortened, the labor cost is also reduced, and the processing process is simplified.

1 is a cross-sectional view showing an example of a conventional auger-type ice maker,
2 is a cross-sectional view of an auger-type ice maker having an improved compression structure of the present invention,
3A is a perspective view of a combined compression structure of an auger-type ice maker having an improved compression structure of the present invention,
3B is an exploded perspective view of the compression structure of an auger-type ice maker having an improved compression structure of the present invention,
Figure 4a is an enlarged perspective view showing the connection state of the auger shaft and the drive shaft of the auger-type ice maker having an improved compression structure of the present invention,
Figure 4b is an enlarged perspective view showing the connection state of another embodiment of the auger shaft and the drive shaft of the auger-type ice maker having an improved compression structure of the present invention,
5A and 5B are cross-sectional views showing a connection state between an auger shaft and a drive shaft of an auger-type ice maker having an improved compression structure according to the present invention,
6 is a cross-sectional view of another embodiment of an auger-type ice maker having an improved compression structure according to the present invention.

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

In the accompanying drawings, FIG. 2 is a cross-sectional view of an auger-type ice maker having an improved compression structure according to the present invention, FIG. 3A is a perspective view of a combination of the compression structure of an auger-type ice maker having an improved compression structure according to the present invention, and FIG. It is an exploded perspective view of the compression structure of an auger-type ice maker with a compression structure.

The basic configuration of an auger-type ice maker having an improved compression structure according to the drawings will be described below.

Basically, the auger-type ice maker consists of a refrigeration cycle part (A), an ice-making water supply part, and an ice-making part.

The refrigeration cycle unit A is configured to circulate and control the refrigerant through a compressor, a condenser, a dehydrator, an expansion valve, and a refrigerant evaporation pipe.

The ice-making water supply unit has a structure in which ice-making water is supplied and drained from the water supply tank into the ice-making cylinder 3 through the water supply pipe 11.

The ice-making unit includes a cylindrical ice-making cylinder (3) arranged in the vertical direction, a refrigerant evaporation chamber (23) wound in contact with the outer circumference of the ice-making cylinder (3), and a spiral blade (42) rotating within the ice-making cylinder (3). An auger 4 in which the auger shaft 41 rotates, and a casing 5 and a driving part 6 covering the entire ice making cylinder 3 so that the outside of the refrigerant evaporation chamber 23 is blocked.

A refrigerant evaporation pipe (evaporation chamber, 23) that circulates the refrigerant by the cooling system (A) is formed in close contact with the outer surface of the ice-making cylinder (3), and the decompression refrigerant introduced from the refrigerant inlet (22) is sent to the refrigerant outlet (21). As an evaporation pipe that serves to cool the ice-making cylinder 3 to below the freezing point by evaporating while flowing to the side, it is made of a suitable metal pipe such as a steel material having high thermal conductivity.

The ice making cylinder 3 has a cylindrical shape, the upper part is covered with the upper cover part 30, the lower part forms a shaft part connected to the drive shaft 61 to transmit rotational force as a drive motor (not shown), and the whole lower part It is possible to form a cover structure including the auger shaft 41 between the drive unit 6 and.

The upper cover part 30 is composed of a cylindrical body 31 and a compression member 32.

The cylindrical body 31 has a circular shape formed with a fixing hole 311 that is coupled with the ice making cylinder 3, and a protrusion formed by radially forming several extrusion furnaces 312 inside the fixing holes 311 (symbol omitted) ), but forming a circular protrusion with a small diameter from the inside of the circular periphery forming the jaw forming the fixing hole 311, and forming a coupling hole 313 in the center thereof. Although the coupling hole 313 may form a spiral on the inner circumferential surface, various fastening structures with the insertion shaft portion 322 of the compression member 32 may be possible. In addition, various sealing members may be added to prevent leakage. have.

The compression member 32 is a columnar insertion shaft portion 322 inserted into the coupling hole 313 of the cylindrical body 31, and the ice discharged from the extrusion furnace 312 to the upper portion of the insertion shaft portion 322 is an inclined surface (symbol In particular, the compression head 321 is formed in a disc shape with an inclined surface inclined in the outer radial direction from the insertion shaft portion 322 on the lower bottom to guide the ice cube by pressing and cutting through). Spirals may be formed in the cylindrical body 31 of the upper cover part 30 of the auger-type ice maker having a structure, the coupling hole 313 of the compression member 32, and the insertion shaft 322. Of course, screw fit coupling is possible. It can be implemented with locking jaws, locking grooves that are fastened in correspondence with each other.

On the other hand, the lower end 413 of the auger shaft 41 of the auger-type ice maker having the improved compression structure of the present invention forms a coupling groove 411 forming a square surface 412, and the upper end 61 of the drive shaft 6 ) May form a square shaft 611 corresponding to the square surface 412 of the coupling groove 411.

In particular, the separated compression member 32 of the auger-type ice maker having an improved compression structure according to the present invention may be made of a hard synthetic resin (PVC) whose strength is guaranteed. Due to the compression member 32 made of such a synthetic resin material, the manufacturing process can be accelerated and the manufacturing cost can be reduced. As the compression member 32 is manufactured with synthetic resin, the processing time required for manufacturing the upper cover of the integral pressure head by metal processing may be shortened, and must be inserted between the upper part 414 of the auger shaft 41 Hal bush removal may be possible.

That is, in the meantime, the upper cover part 30 made of the cylindrical body 31 and the integral compression member 32 is made of a hard metal material, and it takes a high process and processing time due to precision processing (correct diameter, inclination processing). , In particular, a bush for preventing leakage is inserted into the gap between the center hole (not shown) of the upper cover part 30 of the hard metal and the upper end part 414 of the auger shaft 41. In the case of compensation and repair due to frequent leakage, the bush must be replaced, and in order to replace it, there was a cumbersome disadvantage of disassembling and assembling the entire upper cover part 30, but the present invention is a compression member 32 made of synthetic resin. Since the is assembled by screwing, etc., the problem of leakage is small, but there is an advantage of simply replacing the entire upper cover by replacing only the compression member 32 when leakage occurs.

In the present invention, the manufacturing and processing of such a compression member has to be carried out on the outer circumferential surface of the pressing head, but in the present invention, the compression member can be naturally separated from the compression member by simply separating the compression member and assembling it in the ice making cylinder. As a structure, an assembly structure is provided, and in particular, an auger-type ice machine with improved assembly properties is provided by forming a pressure head on an upper portion of the ice making cylinder as a cover structure that can be easily removed.

In the accompanying drawings, FIG. 4A is an enlarged perspective view showing the connection state of the auger shaft and the drive shaft of the auger-type ice maker having the improved compression structure of the present invention, and FIG. 4B is the auger-type ice maker having the improved compression structure of the present invention. Fig. 5a and 5b are cross-sectional views showing a connection state between the auger shaft and the drive shaft of the auger-type ice maker having the improved compression structure of the present invention.

As shown in these drawings, the auger 4 vertically arranges the auger shaft 41 at the upper and lower portions 413 and 414 in the ice making cylinder 3 so that the number of bearing shafts and a bush (not shown) can be rotated. At the same time, an ice-making water supply space (signal omitted) is formed outside the auger shaft 41, and an ice-making space (signal omitted) is formed between the spiral blade 42 and the inner surface of the ice-making cylinder 3.

The auger 4 is formed with an auger shaft 41 and a helical blade 42 provided at a predetermined helical pitch on the outer circumferential surface of the auger shaft 41.

The upper part 414 of the auger shaft 41 can be installed with a bearing or a bush (not shown) so as to be rotatable through the upper end of the ice-making cylinder 3, and a shaft fixing means such as a bearing between the compression member 32 Can be installed.

The tubular body 31 is screwed into the coupling hole 313 of the upper cover part 30, and the lower auger shaft 413 at the lower end is fitted with the drive shaft 61, thereby rotating to the center of the ice making cylinder 3 It is assembled and arranged as possible.

In addition, the lower shaft portion 413 of the auger shaft 41 at the lower end may form a coupling groove 411, and each surface 412 may be formed on the inner peripheral surface thereof. Each surface 612 may also be formed on the coupling shaft 611 of the driving shaft 61 corresponding thereto. Each of the surfaces 412 and 612 may be formed on the coupling groove 411 and the coupling shaft 611, and may be formed in a polygonal surface such as a rectangular surface or a hexagonal surface as shown in FIGS. 5A and 5B, respectively.

Meanwhile, a circular groove 415 may be further formed inside each surface 412 of the coupling groove 411. The circular protrusion 615 of the coupling shaft 612 of the drive shaft 61 may be inserted and supported in the circular groove 415.
In particular, as shown in the accompanying drawings Figure 4b, the lower end of the auger shaft 41 may form a circular coupling groove 411, and to form a square face 412 and a circular groove 415 inside the I can. Accordingly, the driving shafts 6 and 61 may form a circular shape into which the circular peripheral wall 613 can be inserted, each surface 612 of the coupling shaft 611 may be formed thereon, and a circular protrusion 615 may be formed thereon.

Combining the coupling shaft 611 on each side of the coupling groove 411 formed on each side as described above is a cylindrical connecting member in which the two shafts having a plurality of protruding lines on the conventional shaft circumferential surface come into contact with each other, and a concave groove is formed therein. When the auger shaft center is shifted to one side due to the radial load of the vertically installed auger shaft generated when the shaft is coupled (spline shaft), the contact wear of the auger shaft 41 and its shaft member, the auger blade 42 and the ice-making cylinder 3 inner circumferential surface is reduced. It has the feature of removing the installed bush to prevent it.

6 is a cross-sectional view of another embodiment of an auger-type ice maker having an improved compression structure according to the present invention.

The auger-type ice maker having the improved compression structure of the present invention according to the above drawing basically consists of a refrigeration cycle part (A), an ice-making water supply part, and an ice-making part, and the refrigeration cycle part (A) is a compressor and a condenser. ,The refrigerant is circulated and controlled through the dehydrator, expansion valve, and refrigerant evaporation pipe, and the ice-making water supply unit has a structure in which ice-making water from the water supply tank is supplied and drained into the ice-making cylinder 3 through the water supply pipe 11 In addition, the ice-making unit includes a cylindrical ice-making cylinder (3) arranged in the vertical direction, a refrigerant evaporation chamber (23) wound in contact with the outer circumference of the ice-making cylinder (3), and a spiral blade (42) rotating within the ice-making cylinder (3). ) It may be composed of an auger 4 in which the integral auger shaft 41 rotates, and a casing 5 and a driving part 6 covering the entire ice making cylinder 3 so that the outside of the refrigerant evaporation chamber 23 is blocked. have.

The ice making cylinder 3 is formed in a cylindrical shape, the upper part is covered with the upper cover part 30, and the lower part forms a drive shaft 6 connected to the drive shaft 61 to transmit rotational force as a drive motor (not shown), and the The entire lower part may form a cover structure including the auger shaft 41 between the driving part 6 and the driving part 6. The upper cover part 30 is made of a cylindrical body 31, a compression member 32, and a bush.

The cylindrical body 31 has a circular shape formed with a fixing hole 311 that is coupled with the ice making cylinder 3, and a protrusion formed by radially forming several extrusion furnaces 312 inside the fixing holes 311 (symbol omitted) ), but forming a circular protrusion with a small diameter from the inside of the circular periphery forming the jaw forming the fixing hole 311, and forming a coupling hole 313 in the center thereof. Although the coupling hole 313 may form a spiral on the inner circumferential surface, various fastening structures with the insertion shaft portion 322 of the compression member 32 may be possible. In addition, various sealing members may be added to prevent leakage. The compression member 32 includes a columnar insertion shaft portion 322 inserted into the coupling hole 313 of the cylindrical body 31, and the ice discharged from the extrusion furnace 312 to the upper portion of the insertion shaft portion 322 It is made of a pressing head 321 formed in a disk shape with an inclined surface inclined in the outer radial direction from the insertion shaft portion 322 at the lower bottom to guide to square ice by pressing and cutting through (sign omitted). In particular, the improvement of the present invention The cylindrical body 31 of the upper cover part 30 of the auger-type ice maker having the compressed structure and the coupling hole 313 of the compression member 32 and the insertion shaft part 322 may each form a spiral, in particular, A bush may be further inserted between the upper portion 414 of the auger shaft 41 and the compression member 32.

In addition, the lower end 413 of the auger shaft 41 of the auger-type ice maker having the improved compression structure of the present invention forms a coupling groove 411 forming a square surface 412, and the upper end 61 of the drive shaft 6 ) May form a square shaft 611 corresponding to the square surface 412 of the coupling groove 411. Therefore, the auger-type ice maker having the improved compression structure of the present invention can be replaced by simply separating the compression member 32 from the cylindrical body 31 when there is a request for replacement or repair due to bush wear that occurs when ice making operation for a long time It is to implement an assembly structure that has not been achieved before, and the lower part 413 of the auger shaft 41 without using a bush for solving the radial load and preventing leakage installed between the lower auger shaft and the drive shaft of the conventional auger ice maker The shaft connection structure of a sanitary auger-type ice maker that can remove the bush that is installed when the unnecessary splan-in shaft is combined as a coupling structure that is inserted and connected to each side of the coupling groove 411 of the drive shaft 61 and the coupling shaft 612 Can provide.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is only illustrative, and those of ordinary skill in the field to which the technology pertains, various modifications and other equivalent embodiments are possible. I will understand. Therefore, the true technical protection scope of the present invention should be determined by the claims.

2: cooling cycle (A), 21: refrigerant outlet, 22: refrigerant inlet, 23: refrigerant evaporation chamber,
3: ice making cylinder, 30: upper cover, 31: cylindrical body, 311: fixed hole, 312: extrusion furnace,
313: coupling hole, 32: compression member, 321: pressure head, 322: insertion shaft portion, 4: auger, 41: auger shaft,
411: coupling groove, 412: each side, 413: lower, 414: upper, 415: circular groove, 42: spiral blade,
5: casing, 6: driving part, 61: driving shaft, 612: coupling shaft, 613; each side, 615: circular projection.

Claims (5)

Ice-making water supply unit for supplying ice-making water from the water supply tank to the ice-making cylinder through a water supply pipe and draining through the drain pipe;
A refrigeration cycle unit (A) in which refrigerant is circulated and controlled through a compressor, a condenser, a dehydrator, an expansion valve, and an evaporation pipe; And
An ice-making cylinder consisting of upper and lower cover parts and a cylindrical shape, the evaporation tube wound on the outer circumference of the ice-making cylinder, an auger composed of an auger shaft with a spiral blade rotating in the ice-making cylinder, a driving part for driving the auger, the evaporation An ice making unit made of a casing covering the outside of the tube;
Including,
The upper cover part of the ice making cylinder,
A cylindrical body having a circular shape of fixing holes coupled with the ice making cylinder, forming several extrusion furnaces radially inside the fixing holes, and forming a coupling hole having a spiral formed at the center thereof; And
At the same time, a columnar insertion shaft portion screwed into the coupling hole of the tubular body, and the upper portion of the insertion shaft portion form a pressing head that guides the ice discharged from the extrusion furnace through an inclined surface and cuts it into square ice. Compression member made of synthetic resin material;
Including,
The lower end of the auger shaft forms a coupling groove forming a polygonal surface, a circular groove is formed on the inner upper end of the coupling groove, and the upper end of the drive shaft forms a coupling shaft of multiple facets inserted corresponding to the polygonal facets of the coupling groove. And, an auger-type ice maker having an improved compression structure, characterized in that the upper end of the coupling shaft forms a circular protrusion. delete delete delete delete

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