KR102354690B1 - Auger-type ice machine with adjustable length of discharged ice and thereof - Google Patents

Abstract

Disclosed is an auger type ice making machine. The auger type ice making machine includes: a cover member; a cylindrical evaporation pipe cooling the inside of the cover member in a cooling cycle through a refrigerant line and a refrigerant circulation line; a cylindrical ice making cylinder forming a cooling space connected with an ice making water supply line in the evaporation pipes, and having an outlet formed at an end of the cooling space to discharge made ice; an auger having at least one spiral blade formed on a rotary shaft in the cooling space of the ice making cylinder; and a driving part delivering a driving force to the auger. The outlet includes a discharge module comprising a body having a flange formed to be combined with a combination flange of the outlet, and having a semicylindrical discharge space formed outside the flange, wherein an end of the discharge space forms the outlet. A method of adjusting the length of discharged ice of the auger type ice making machine includes the following steps of: cutting the ice discharged to the outlet through a first ice discharge module suitable for a first length; cutting the ice discharged to the outlet through a second ice discharge module suitable for a second length; and cutting the ice discharged to the outlet through an n^th ice discharge module suitable for an n^th length. Therefore, the present invention can reduce costs for maintenance by enabling relatively convenient replacement.

Description

Auger-type ice machine with adjustable length of discharged ice and thereof

The present invention relates to an auger type ice maker and a method for discharging ice of different discharge lengths. More particularly, an auger type ice maker capable of cutting and discharging columnar ice discharged through an outlet of an ice maker cylinder to an appropriate length and ice having a different discharge length It is about the discharge method.

° Commonly known auger type ice makers are as follows.

Patent Laid-Open Publication No. 10-2003-62201,

A vertical ice maker, an auger installed on the same axis in the ice bin to continuously scrape the growing layer of ice on the same inner circumferential surface and transport it upward; In an auger type ice maker having a pressure head fixedly installed on the upper side of a container, when ice scraped off by an auger is pushed up by a pressure head on the inner peripheral surface of the ice container and transferred, the ice is moved in the transport direction An auger-type ice maker in which a screw blade that prevents synchronous rotation with an auger while continuously being compressed with the auger is installed to cross the axial direction, and the intersecting angle of the spiral blade in the axial direction is set to 90 to 110 degrees known,

Patent Publication No. 10-416944,

An auger having a vertical ice maker, an auger coaxially installed in the ice bin, a refrigerant pipe recommended in a closely spiral shape to the outer periphery of the ice bin, and a pressure head installed on the auger shaft on the auger shaft and above the ice maker In the type ice maker, the auger is composed of a main body and a spiral blade provided on the outer periphery of the main body, and the cross-sectional shape of the blade portion of the spiral blade gradually thickens from the vertical edge of the blade toward the base of the main body. Auger type in which the thickness of the tip of the blade is 1-3 mm, the taper angle of the upper surface extending from the tip of the blade to the main body is set to 2 to 8 degrees, and the taper angle of the lower part is set to 10 to 20 degrees, respectively, in a truncated isosceles triangle shape Ice makers are known,

Utility Publication No. 20-1983-0000407,

An ice maker that continuously extrudes and produces ice pillars by shaving the frozen ice by the evaporator of the freezer to generate shavings, and at the same time introducing the shredded ice into an extrusion head equipped with an ice compression passage and compressing it. Pressurized compression pieces made of an elastic material respectively mounted on the partition blades, each of which is pushed out from the side of the partition blade toward the ice compression passage and gradually reduces and regulates the width of the ice compression passage from the inlet side to the exit side of the ice compression passage. An extrusion head for compressing ice in an ice maker configured is known,

Patent Registration No. 20-0138409,

A compressor that compresses a refrigerant, a radiator that liquefies the compressed refrigerant, an evaporator that freezes ice by vaporization of the refrigerant, a water tank for supplying water to the evaporator, and an angle that cuts ice formed in the evaporator into cubes of a certain size In an ice maker having an ice cutting unit and an ice storage unit for storing the cut ice, water generated in the ice cutting unit and the ice storage unit and discharged through a water discharge pipe generated in the refrigerator is combined with water discharged from a water tank to dissipate heat A radiator cooling device of an ice maker is known, which is introduced into the radiator through a pipe inlet, undergoes heat exchange, and then is discharged to the outside through an outlet of the radiator pipe.

On the other hand, in the conventional auger-type ice maker, the ice outlet is in the same direction as the axial direction of the auger (vertical type, hereinafter referred to as a vertical type ice maker), and the method is perpendicular to the auger axial direction (horizontal type, Hereinafter referred to as a horizontal ice maker).

When such a vertical auger type ice maker has a small capacity with a small amount of ice, in the case of the vertical type, the size of the auger and the evaporator where the auger is located as well as the size of the outlet through which a large number of ice comes out are reduced, so the size of the ice particles that come out is also small. and become unsuitable for use. In particular, in the case of a vertical ice maker, ice resistance is applied to the ice resistance applied to the spiral blade of the auger in response to the rotational force of the drive motor driving the auger shaft, opposite to the direction of ice movement, and the position where the pressure is strongest is the outlet side. In other words, the radial load applied in the lateral direction of the auger shaft acts as a component force corresponding to the spiral angle of the auger to the axial load, that is, the thrust load. In preparation for this, the idling means (bearings) of sufficient capacity and the cover fixing structure corresponding to the supporting force were worn on the drive shaft part due to the wear and thus the lifespan of the ice maker was shortened.

On the other hand, the horizontal type ice maker forms an outlet on the upper surface (side) of the ice maker, so it can be used as an ice maker suitable for discharging large particles of ice while having a small capacity compared to a vertical type ice maker.

In addition, the vertical type ice maker is designed to dispose a driving motor, an ice maker such as an auger, and a plurality of outlets including an ice making function through refrigerant circulation and a compression function after ice making. Therefore, it can be said that the force (also called radial load) applied in the direction perpendicular to the auger shaft is small because the ice is compressed in the direction of the auger shaft.

The horizontal type ice maker is designed to be arranged in the order of the ice making unit such as an auger, the outlet including the ice making and post-icing compression function through refrigerant circulation, and the driving motor. Since the force applied in the perpendicular direction increases, as a horizontal ice maker, the number of parts is increased to overcome this, and expensive parts are required, thereby increasing the burden on the manufacturing cost. In particular, in the known horizontal ice maker, the number of parts is small and there is a possibility that the cost can be reduced, but there is a problem that the durability is deteriorated because it is manufactured without the necessary parts corresponding to the eccentric load.

In addition, as a problem that could not be reduced in the horizontal ice maker, the inside and outside of the ice maker (anti-condensation) were wrapped with insulating material to achieve a cooling cycle (A) through refrigerant circulation consisting of an evaporator, a compressor, a condenser, and a capillary tube. Due to the configuration in which the ice maker is arranged in such a way that it has become a problem in miniaturization of the ice maker.

In addition to these problems, the conventional vertical ice maker has a cutting structure in which the cylindrical discharge ice, in which the ice through the outlet is pushed up by the ice making pressure at the end of the ice making, collides with the side of the extrusion head having the inclined surface and is cut. However, since the ice maker having a horizontal installation structure has the outlet formed upward, the cutting structure is assembled so that the ice is cut by being bent at right angles to the end of the outlet to cut the rising ice (Patent Publication No. 10-2018-0134650).

This cut structure is freely contacted, cut, and stored regardless of the length of the discharged cylindrical ice. Since there is no particular inconvenience in using these ices, they are stored and used without limitation of the discharge length. However, the size of ice that is suitable for various uses is required, such as the size of the ice for ice coffee which is gradually diversifying, for example, the size of ice for ice coffee is small, and the size of ice suitable for cold noodles, etc. must be large. Therefore, there is a need for a structure for discharging ice with various lengths of sizes suitable for the use of ice.

In view of the above problems and necessity, an object of the auger type ice maker according to an embodiment of the present invention is to provide an auger type ice maker having a discharging structure for varying the length of discharging ice.

A discharge structure that achieves the above object and forms various lengths formed at the end of the discharge port at the same time is a first discharge module of a first length, a second discharge module of a second length, a third discharge module of a third length, nth As an n-th discharge module of length, it is also attached to the outlet of an auger type ice maker to vary the length of the ice discharged.

The auger-type ice maker according to an embodiment of the present invention that achieves the above object also has an object to provide an auger-type ice maker in which the discharge length is controlled by cutting and moving horizontally at the outlet side.

The object of the present invention to achieve the above object is to enable the moving means to cut across the sector as a rotation module of the sector widened from the midpoint.

The fan-shaped rotation module that achieves the above object is a rotation module in which the lower surface of the upper edge of the sector forms a contact wall, and the angle of the sector that opens at the same time forms a rotation angle that forms a smaller angle from the left to the right. An object of the present invention is to provide an auger type ice maker.

The auger-type ice maker according to an embodiment of the present invention achieves the above object and at the same time forms a first discharge module of a first length, a second discharge module of a second length, and a third length to form various lengths formed at the end of the outlet. Another object of the present invention is to provide a method for adjusting the length of the discharged ice to vary the length of the discharged ice by changing and assembling the third discharging module and the nth discharging module of the nth length.

An auger-type ice maker according to an embodiment of the present invention for achieving the above object,

a cover member; a cylindrical evaporating tube body that forms a refrigerant circulation path to which a refrigerant line is connected inside the cover member and cools it toward the inside of the refrigerant circulation path in a predetermined cooling cycle through the refrigerant line and the refrigerant circulation path; a cylindrical ice-making cylinder having a cylindrical cooling space to which an ice-making water supply line is connected in the evaporator, and an outlet through which the ice-making water is discharged at the end of ice making; an auger shaft having at least one spiral blade formed on a rotating shaft inside the cooling space of the ice-making cylinder; and a driving unit connected to the auger shaft to transmit a driving force.

The outlet is

A flange coupled to the coupling flange of the outlet is formed, a semi-cylindrical discharge space is formed on the outside of the flange, and the end of the discharge space is a discharge module comprising a body constituting the outlet; at least two different lengths, including It is an auger type ice maker that controls the length of the discharged ice with more than one discharge module.

The discharge module of the auger type ice maker according to an embodiment of the present invention for achieving the above object,

In a predetermined section of the discharge space leading to the discharge port, the discharged ice is bent and cut to form a curved portion.

According to an embodiment of the present invention for achieving the above object, the curved portion of the discharge module of the auger type ice maker is an auger type ice maker comprising a discharge module having an inclination angle of about 45 to 90°.

The outlet of the auger type ice maker according to an embodiment of the present invention for achieving the above object,

A body having an atypical sectoral shape by varying angles according to the lengths L1, L2, and L3, and each part of the first length L1 based on the rotatably installed shaft, and the first length L1 ), the second length L2 at an angle greater than L2, the third length L3 at an angle greater than the second length L2, etc. are formed to correspond in the vertical direction to the lower end of the curved edge, forming a contact surface where the discharged ice comes into contact. a rotatable cutting module; and

It is an auger type ice maker having a feature of forming a coupling shaft to be inserted into the shaft portion, and a gripping member that can be manually operated by forming an adjustment handle on the upper end of the coupling shaft, adjusting the length of the discharged ice while rotating it and cutting and discharging it.

In order to cut the ice discharged from the outlet by a predetermined distance forward and backward in the lateral direction, each side except for the two sides meeting at right angles forms a cut surface, the body forming a flat-shaped right triangle,

A pinion gear to impart a moving force to the lower side, a rack gear toothed to the pinion gear, a drive motor to drive the rack gear, a slide bar to maintain a sliding state, and formed on the lower part to slide to the slide bar It is an auger-type ice maker including a cutting module forming one coupling block.

The outlet of the auger type ice maker according to an embodiment of the present invention for achieving the above object,

A shaft that is rotatably installed at the outlet side of the ice maker, a first leg formed at the largest angle with respect to the shaft, a second leg at an angle smaller than the first leg, and a third leg at an angle smaller than the second leg It is an auger type ice maker including; a rotating member that forms a curved edge and is formed at a lower end of the curved edge in a vertical direction to form a cut edge that is in contact with the discharged ice.

According to an embodiment of the present invention for achieving the above object, there is provided a method for cutting the discharged ice of an auger type ice maker,

cutting the ice discharged to the outlet side with a first ice-out module suitable for a first length; cutting the ice discharged to the outlet side with a second ice-out module suitable for a second length; and cutting the ice discharged from the outlet side with an n-th ice-out module suitable for an n-th length.

The auger type ice maker according to an embodiment of the present invention made as described above provides an auger type ice maker having a discharging structure for varying the length of discharging ice.

The auger type ice maker according to an embodiment of the present invention has a discharge structure having various lengths formed at the end of the discharge port, including a first discharge module of a first length, a second discharge module of a second length, and a third discharge module of a third length. , it is possible to vary the length of the ice discharged from the outlet as the nth discharge module of the nth length.

In the auger-type ice maker according to an embodiment of the present invention, the discharge length is adjusted by cutting and moving horizontally from the outlet side.

The auger type ice maker according to an embodiment of the present invention may enable the moving means for cutting the discharged ice as a fan-shaped rotating module spaced from the midpoint.

The rotation module of the auger type ice maker according to an embodiment of the present invention is a rotation module in which the lower surface of the sector-shaped upper edge forms a contact wall, and the angle of the sector-shaped rotation module forms a rotation angle that gradually decreases from one side to the other side. can be done as

In the auger-type ice maker according to an embodiment of the present invention, the first discharge module of the first length, the second discharge module of the second length, the third discharge module of the third length, and the n-th It is possible to provide a method for adjusting the length of the discharged ice to vary the length of the discharged ice by replacing and assembling the n-th discharge module of the length.

The auger type ice maker according to an embodiment of the present invention is a cutting module that moves in the left and right directions at the outlet, and cuts small ice suitable for use such as cold noodles where large ice is used, or for fast cooling of beverages and coffee. will be able to provide.

1 is a perspective view of an auger-type ice maker according to Embodiment 1 of the present invention;
2 is an excerpted perspective view showing that the discharge module is connected to the outlet of the auger-type ice maker according to Embodiment 1 of the present invention;
3 is a cross-sectional schematic view showing the discharge of ice through the discharge module of the auger type ice maker according to Embodiment 1 of the present invention;
4 (a), (b), and (c) are side views showing the discharge module for each length of the auger type ice maker according to Example 1 of the present invention;
5 is an explanatory diagram illustrating the length of ice through the discharging action of the discharging module of the auger-type ice maker according to the first embodiment of the present invention;
6A is a schematic explanatory diagram of discharging ice by adjusting the length of discharged ice of the auger type ice maker according to Embodiment 2 of the present invention;
6B is an exemplary installation view of a cutting module for discharging ice by adjusting the length of the discharged ice of the auger type ice maker according to Embodiment 2 of the present invention;
6c shows a modified driving means of the cutting module for discharging ice by adjusting the length of the discharged ice of the auger type ice maker according to Embodiment 2 of the present invention;
7A is an enlarged plan schematic view of the main part showing the installation structure of a rotating block for adjusting the length of the discharged ice of the auger type ice maker according to the third embodiment of the present invention;
7B is a perspective view of a rotating block for adjusting the length of the discharged ice of the auger type ice maker according to the third embodiment of the present invention;
7c and 7d are perspective views of the manual adjustment mechanism of the rotating block for adjusting the length of the discharged ice of the auger-type ice maker according to the third embodiment of the present invention;
8 is a schematic side view for explaining an installation example for automatically adjusting the angle of the rotation block for adjusting the length of the discharged ice of the auger type ice maker according to the third embodiment of the present invention.

Hereinafter, an auger-type ice maker according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

(Example 1)

Of the accompanying drawings, FIG. 1 is a perspective view of an auger-type ice maker according to Example 1 of the present invention, and FIG. 2 is an excerpted perspective view showing that the discharge module is connected to the outlet of the auger-type ice maker according to Example 1 of the present invention; 3 is a cross-sectional schematic view showing the discharge of ice through the discharge module of the auger type ice maker according to the first embodiment of the present invention, and FIGS. It is a side view showing the discharge module for each length of the auger type ice maker, and FIG. 5 is an operation explanatory diagram illustrating the length of ice through the discharge action of the discharge module of the auger type ice maker according to the first embodiment of the present invention.

The auger-type ice maker according to Embodiment 1 of the present invention according to these drawings,

A cover member 200, an ice-making cylinder (shown and symbols omitted), an evaporation tube body (shown and symbols omitted), an auger (shown and symbols omitted), a driving unit (shown and symbols omitted), and an outlet 320 . and a discharge module 100 .

The evaporation tube body forms a refrigerant circulation path to which a refrigerant line is connected inside the cover member, and constitutes a cylindrical cooling unit for cooling toward the inside of the refrigerant circulation path in a predetermined cooling cycle through the refrigerant line and the refrigerant circulation path (specific structure and description are known Therefore, the description of the drawings and symbols will be omitted).

The ice-making cylinder is a cylindrical cylinder having a cylindrical cooling space connected to an ice-making water supply line in the evaporating tube, and an outlet 320 through which the ice-making water is discharged at the end of ice making (specifically, Since the structure and description are known, the description of the drawings and symbols will be omitted).

The auger forms at least one spiral blade on the rotating shaft inside the cooling space of the ice-making cylinder (the detailed structure and description are known, so the description of the drawings and symbols will be omitted).

The driving part is connected to the auger shaft and includes a bearing, a main shaft part provided with a sealing member, etc., and a driven shaft part to transmit driving force, and detailed structures and descriptions are known, so descriptions of drawings and symbols will be omitted.

The outlet 320 forms an outlet 320 to the outside, and has a coupling flange 321 .

The discharge module 100 is coupled to the coupling flange 321 .

The discharge module 100 forms a flange 110 coupled to the coupling flange 321, forms a semi-cylindrical discharge body 120 on the outside of this flange 110, and enters and exits the flange 110 inside ( 130), and forms a curved L-shape from the entry/exit portion 110 to the discharge portion 140 through the discharge space 150 and the curved portion 160.

The discharging module 100 may form a bending point 121 at which the discharging ice is pressed and cut on the curved portion 160 of the discharging space 150 reaching the discharging unit 140 . The curved portion 160 may form an inclination angle of about 45 to 90°.

As shown in FIGS. 4 and 5 of the accompanying drawings, the discharging module 100 can discharge ice of different lengths through the following discharging steps.

S1 (step of discharging ice of the first length);

Ice is made by manually assembling the first discharge module 120 for discharging ice of a first length (L1), which is fastened to the outlet 320 side of the ice maker, in the fastening holes 324 and 140 as a fastening member 170. The discharged ice of the first length L1 may be discharged.

S2 (step of discharging ice of the second length);

The second discharge module 120 for discharging the ice of the second length L2, which is fastened to the outlet 320 side of the ice maker, is manually assembled in the fastening holes 324 and 140 as the fastening member 170 to make ice. The discharged ice of the second length L1 may be discharged.

S3 (the third length of ice discharging step);

Ice is made by manually assembling a third discharge module 120 for discharging ice of a third length (L3), which is fastened to the outlet 320 side of the ice maker, in the fastening holes 324 and 140 as a fastening member 170. The discharged ice of the third length L1 may be discharged.

In this way, the n-th length of ice can be discharged.

That is, Sn (ice discharging step of the nth length); The n-th discharge module 120 for discharging ice of the n-th length (Ln), which is fastened to the outlet 320 side of the ice maker, is manually assembled in the fastening holes 324 and 140 as a fastening member 170 to make ice. The discharged ice of the n-th length Ln may be discharged.

The present invention may provide an auger-type ice maker for controlling the length of the discharged ice, including at least two or more ice-making modules having different lengths.

(Example 2)

Of the accompanying drawings, FIG. 6A is a schematic explanatory view of discharging ice by adjusting the length of the discharged ice of the auger type ice maker according to Embodiment 2 of the present invention, and FIG. 6B is an auger type ice maker according to Embodiment 2 of the present invention. 6c is a modified driving means of the cutting module for discharging ice by adjusting the length of discharged ice of the auger type ice maker according to the second embodiment of the present invention. indicates

The auger-type ice maker of the present invention according to the drawings includes a cover member * not shown), an ice-making cylinder (not shown), an evaporation tube body (not shown), an auger (not shown), a driving unit (not shown), and an outlet ( 320) and a cutting module 400.

Specific structures and descriptions of the evaporating tube body, ice making cylinder, auger, and driving part are known and overlapping, so a detailed description thereof will be omitted.

A cutting module 400 for cutting the ice discharged from the outlet 320 is installed in front of the outlet 320 .

The cutting module 400 may cut the ice discharged from the outlet 320 forward and backward by a predetermined distance in the lateral direction. The cutting module 400 is a body 410 that forms a right-angled triangle in the form of a flat plate.

The body 410 includes a pinion gear 430, a rack gear 440 that is tooth-fitted to the pinion gear 430, and a drive motor for driving the rack gear 440 in order to impart a moving force to the upper or lower portion thereof. 450) can be installed. The body 410 may have a slide bar 420 installed at a lower portion of the body 410 to maintain a sliding state while being moved. In order to slide-couple with the slide bar 420 , a coupling block 412 may be formed on the lower portion of the body 410 to be coupled to the slide bar 420 . Therefore, the body 410 can be freely moved forward and backward on the slide bar 412, and power is applied to the above-described rack, pion gear, or screw bar to move the body 410 forward and backward. By giving it, forward and backward movement is made according to a predetermined length.

For the driving method of the cutting module 400 made as described above, a step motor capable of forward and reverse driving applied to the driving motor 450 is suitable, and the movement distance of the body 410 according to the discharging length of the ice is set by switching buttons for each discharging length. , and the discharge length of the ice is determined as the moving length of the body 410, and by selecting one of the input switching signals and driving the driving motor 450 long or short, the discharging ice is the moving distance. The cutting length of can be determined.

On the other hand, the cutting module 400 of the auger type ice maker of the present invention, as shown in FIG. 6c , is a slide bar 420 at the lower part of which the screw bar 460 is stepwise driven by a driving motor 450 to move horizontally. As a result, it is possible to cut the discharged ice by length while moving forward and backward.

The ice discharged from the auger type ice maker of the present invention moves in the left and right directions at the outlet of the cutting module 400, so that the discharged ice is discharged only in a certain length. will be able to respond to

(Example 3)

Of the accompanying drawings, FIG. 7a is an enlarged plan schematic view showing the main part of the installation structure of the rotating block for adjusting the length of the discharged ice of the auger type ice maker according to the third embodiment of the present invention, and FIG. 7b is the third embodiment of the present invention. It is a perspective view of a rotation block for adjusting the length of the ice discharged from the auger type ice maker, and FIGS. 7c and 7d are perspective views of the manual control unit of the rotation block for adjusting the length of the ice discharged from the auger type ice maker according to the third embodiment of the present invention. , FIG. 8 is a schematic side view illustrating an installation example for automatically adjusting the angle of a rotating block for adjusting the length of the discharged ice of the auger type ice maker according to the third embodiment of the present invention.

The auger-type ice maker of the present invention according to the drawings includes a cover member (not shown), an ice-making cylinder (not shown), an evaporation tube body (not shown), an auger (not shown), a driving unit (not shown), and an outlet ( 320) and the discharge module 500.

Specific structures and descriptions of the evaporating tube body, ice making cylinder, auger, and driving part are known and overlapping, so a detailed description thereof will be omitted.

A rotatable cutting module 500 may be installed in the outlet 320 to cut the discharged ice while rotating.

The cutting module 500 forms a body 510 forming a sectoral shape, and has an atypical sectoral shape by varying the angle according to the lengths L1, L2, and L3 as shown. This includes a first length (L1) that has the largest angle with respect to the shaft portion (511) rotatably installed on the side of the ice maker outlet, and a second length (L2) of an angle greater than the first length (L1), It can be carried out by the contact surface 512 which is formed in the vertical direction to correspond to the lower end of the curved edge determined by the third length L3, etc., at an angle greater than the second length L2, and the discharge ice is in contact with.

The cutting module 500 may form a contact surface 512 in contact with the discharged ice at the lower end of the wide edge thereof, and the shaft portion 511 forms a hole for inserting and attaching the manually operable gripping member 520 . can do.

The gripping member 520 forms a control handle 521 and a cross-shaped coupling shaft 522 or a tooth-fitting coupling shaft 522 as shown in FIGS. , can be formed in a one-piece fit.

Therefore, the rotation direction of the cutting module 500 can be fixed by selecting and inserting the adjusting handle 521 of the holding member 520 when the ice maker is discharging ice, and the length of the discharged ice (L1) (L2) (L3) The rotation angle is temporarily fixed to suit the needs, so that the length of the discharged ice is uniformly discharged.

On the other hand, as shown in FIG. 8 , the driving shaft of the driving motor 530 is installed on the shaft 511 of the cutting module 500 and rotated step by step as a step signal of the driving motor 530 , thereby discharging ice. Cut discharge by length of the can be made.

The ice discharged from the auger type ice maker of the present invention made in this way moves in the left and right directions at the outlet of the cutting module, so that the discharged ice is discharged only in a certain length, so large ice for simple cooling or small ice for rapid cooling will be able to respond to

Although illustrated in the drawings of the present invention described above and described with reference to the preferred embodiments described above, these are exemplary, and those of ordinary skill in the art, such as the present invention, may make various modifications and equivalent other Examples are possible. The technical protection scope of the present invention will be determined by the claims.

100; discharge module, 110; flange, 120; discharge body, 130; inlet and outlet, 140; discharge unit,
150; discharge space, 160; curved part, 161; bending point, 320; outlet, 321; coupling flange,
400; cutting module, 410; body, 411; cutting surface, 412; coupling block, 420; slide bar;
430; pinion gear, 440; rack gear, 450; drive motor, 500; cutting module, 510; body,
511; Shaft portion, 512; Contact surface, 520; Grip member, 521; Adjustment handle, 522; Engagement shaft;
530; drive motor.

Claims (6)

delete delete delete In the auger type ice maker,
cover member;
a cylindrical evaporating tube that forms a refrigerant circulation path to which a refrigerant line is connected inside the cover member and cools it toward the inside of the refrigerant circulation path in a predetermined cooling cycle through the refrigerant line and the refrigerant circulation path;
a cylindrical ice-making cylinder having a cylindrical cooling space to which an ice-making water supply line is connected in the evaporator, and an outlet through which the ice-making water is discharged at the end of ice making;
an auger having at least one spiral blade formed on a rotating shaft inside the cooling space of the ice-making cylinder; and
a driving unit connected to the auger to transmit driving force;
including,
The outlet is
In order to cut the ice discharged from the outlet by a predetermined distance forward and backward in the transverse direction, each side except for the two surfaces meeting at right angles forms a flat-shaped right triangle body 410, wherein each side forms a cut surface,
A pinion gear 430 to impart a moving force to the lower side, a rack gear 440 that is tooth-fitted to the pinion gear 430, a drive motor 450 for driving the rack gear 440, maintaining a sliding state a cutting module 400 for forming a slide bar 420 for performing the sliding operation, and a coupling block 412 formed on the lower portion of the body 410 for slidingly coupling to the slide bar 420;
Auger-type ice maker comprising a. In the auger type ice maker,
cover member;
a cylindrical evaporating tube that forms a refrigerant circulation path to which a refrigerant line is connected inside the cover member and cools it toward the inside of the refrigerant circulation path in a predetermined cooling cycle through the refrigerant line and the refrigerant circulation path;
a cylindrical ice-making cylinder having a cylindrical cooling space to which an ice-making water supply line is connected in the evaporator, and an outlet through which the ice-making water is discharged at the end of ice making;
an auger having at least one spiral blade formed on a rotating shaft inside the cooling space of the ice-making cylinder; and
a driving unit connected to the auger to transmit driving force;
including,
The outlet is
A body 510 having an atypical sector shape by varying the angle according to the length (L1) (L2) (L3),
Each part of the first length L1 based on the shaft portion 511 that is rotatably installed, the second length L2 at an angle greater than the first length L1, and the angle greater than the second length L2 A rotatable cutting module 500 that is formed to correspond to the lower end of the curved edge defined by a third length (L3) and the like in the vertical direction to form a contact surface 512 that is in contact with the discharged ice; and
a holding member 520 capable of forming a coupling shaft 522 to be inserted and attached to the shaft portion 511, and forming an adjustment knob 521 on the upper end of the coupling shaft 522 to be manually operated;
Auger type ice maker that cuts and discharges the discharged ice by adjusting the length while rotating. delete

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