CN212274343U - Novel snowflake ice maker - Google Patents

Abstract

The utility model discloses a novel snowflake ice maker, a compressor, an evaporation barrel assembly, a condenser and a water supply tank are arranged on a fixed mounting frame of the snowflake ice maker, the evaporation barrel assembly comprises a driving motor, a reduction gearbox and an ice making evaporation barrel, the ice making evaporation barrel comprises an evaporation barrel base, an evaporation barrel body, a spiral ice skate, a coil pipe shell and an evaporator coil pipe, the spiral ice skate is embedded in an ice making cavity of the evaporation barrel body, a water outlet of the water supply tank is communicated with the ice making cavity through a water delivery pipeline, an end cap through hole is arranged on a lower end cap at the lower end opening of the ice making cavity, and an ice outlet flange at the upper end opening of the; the spiral ice skate comprises an ice skate main body, a spiral twisted tooth, an upper end connecting shaft and a lower end connecting shaft, and a power output shaft of the reduction gearbox is connected with the lower end connecting shaft through a coupler; the ice outlet flange is provided with an ice outlet hole at the periphery of the flange through hole, and the ice discharging barrel is arranged beside the ice making evaporation barrel. Through the structure design, the utility model has the advantages of structural design is novel, it is efficient to go out ice.

Description

Novel snowflake ice maker

Technical Field

The utility model relates to an ice machine technical field especially relates to a new-type snowflake ice machine.

Background

An ice maker is a refrigerating mechanical device which cools water through an evaporator by a refrigerating system refrigerant to generate ice.

As an important type of ice maker apparatus, a snowflake ice maker is widely used in daily life. Wherein, ice making machines (called irregular ice particles with the side length not more than 20mm, such as crushed ice or ore type ice, and the like) on the market at present do not have the defects that the single evaporator yield reaches 1000kg/24h (the environment is 25 ℃, the water temperature is 20 ℃), namely the existing ice making machines generally have low ice outlet efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a new-type snowflake ice machine to prior art's not enough, this new-type snowflake ice machine structural design is novel, it is efficient to go out ice.

In order to achieve the above purpose, the present invention is achieved by the following technical solutions.

A novel ice maker for snowflakes comprises a fixed mounting frame, wherein the fixed mounting frame is provided with a compressor, an evaporation barrel assembly, a condenser and a water supply tank, the evaporation barrel assembly comprises a driving motor, a reduction gearbox and an ice making evaporation barrel, a box body of the reduction gearbox is screwed and fastened on the fixed mounting frame, the driving motor is screwed and arranged on the box body of the reduction gearbox, and the driving motor is in driving connection with the reduction gearbox;

the ice-making evaporation barrel comprises an evaporation barrel base and an evaporation barrel body positioned on the upper end side of the evaporation barrel base, the evaporation barrel base is screwed in a box body of the reduction gearbox, the evaporation barrel body is vertically arranged, an ice-making chamber which completely penetrates through the evaporation barrel body from top to bottom is formed in the evaporation barrel body, a water outlet of the water supply tank is communicated with the ice-making chamber through a water conveying pipeline, a barrel body lower end flange part is arranged on the lower end edge part of the evaporation barrel body, a barrel body upper end flange part is arranged on the upper end edge part of the evaporation barrel body, and the barrel body lower end flange part of the evaporation barrel; the lower end opening of the ice making cavity is provided with a lower end plug clamped between the evaporation barrel body and the evaporation barrel base, the middle position of the lower end plug is provided with a plug through hole which is completely penetrated up and down, the upper end opening of the ice making cavity is provided with an ice outlet flange which is screwed and fastened on the flange part at the upper end of the barrel body, and the middle position of the ice outlet flange is provided with a flange through hole which is completely penetrated up and down;

the spiral ice skate blade is embedded in the ice making cavity of the barrel body of the evaporation barrel, extends vertically and is coaxially arranged with the ice making cavity, the spiral ice skate blade comprises an ice skate blade main body which is cylindrical and is arranged vertically, spiral twisted teeth which extend spirally are arranged on the outer circumferential surface of the ice skate blade main body, an upper end connecting shaft which extends upwards is arranged on the upper end surface of the ice skate blade main body, a lower end connecting shaft which extends downwards and is axially aligned with the upper end connecting shaft is arranged on the lower end surface of the ice skate blade main body, the upper end connecting shaft is inserted into a flange through hole of an ice outlet flange, the lower end connecting shaft penetrates through a plug through hole of a lower end plug from top to bottom and extends to the lower end side of the lower end plug, a power output shaft of a reduction box is axially aligned with;

a coil pipe shell is sleeved on the periphery of the barrel body of the evaporation barrel, a coil pipe installation cavity is formed between the coil pipe shell and the barrel body of the evaporation barrel, an evaporator coil pipe which is sleeved on the periphery of the barrel body of the evaporation barrel and is in contact with the barrel body of the evaporation barrel is embedded in the coil pipe installation cavity, a refrigerant inlet end and a refrigerant outlet end of the evaporator coil pipe respectively penetrate through the coil pipe shell and extend to the outer end side of the coil pipe shell, and a compressor, a condenser and the evaporator coil pipe are sequentially connected and form a closed loop;

the ice outlet flange is provided with ice outlet holes which are respectively completely penetrated up and down and are distributed at equal intervals in a circumferential ring shape at the periphery of the flange through hole, the side of the ice making evaporation barrel is provided with an ice discharging barrel which is vertically arranged, and the upper end part of the ice outlet flange is provided with an ice guide pipe which guides ice blocks discharged through the ice outlet holes to the ice discharging barrel.

The power output shaft of the driving motor extends into the box body of the reduction box, the power output shaft of the driving motor is provided with a front end gear, and the power output shaft of the reduction box is provided with a rear end gear;

the front gear is meshed with the large gear of the first duplicate gear shaft, the small gear of the first duplicate gear shaft is meshed with the large gear of the second duplicate gear shaft, and the small gear of the second duplicate gear shaft is meshed with the rear gear.

The ice outlet flange is arranged between the two adjacent ice outlet holes and is provided with a wedge-shaped block in a wedge shape, and the width value between the two adjacent wedge-shaped blocks is gradually reduced along the ice outlet direction.

Wherein, each wedge respectively with go out ice flange structure as an organic whole.

Wherein, the ice outlet flange is a stainless steel flange.

And the upper end part of the ice outlet flange is buckled with an isolation cover for covering an opening at the upper end of the through hole of the flange.

The outer circumferential surface of the ice skate main body is welded with a single spiral twisted tooth which is of a single spiral structure; or a plurality of spiral twisted teeth are welded on the outer circumferential surface of the ice skate main body, and the spiral twisted teeth are of a multi-spiral structure.

The inner wall of the barrel body of the evaporation barrel is provided with water guide grooves which vertically extend and are circumferentially distributed at equal intervals in an annular mode.

Wherein, the condenser is equipped with a cooling fan.

Wherein, the water pipe connected with the water outlet of the water supply tank is provided with a filter.

The utility model has the advantages that: the utility model discloses a new-type ice maker, its fixed mounting bracket installs the compressor, the evaporation barrel subassembly, the condenser, the water supply tank, the evaporation barrel subassembly includes driving motor, the reducing gear box, ice making evaporation bucket includes the evaporation bucket base, the evaporation bucket staving, the ice making cavity is seted up to evaporation bucket staving inside, the water supply tank delivery port passes through conduit and communicates with the ice making cavity, the evaporation bucket staving sets up staving lower and upper end flange portion, the lower extreme opening part of ice making cavity installs the lower extreme end cap, the end cap through-hole is seted up to the lower extreme end cap intermediate position, the ice outlet flange is installed to the upper end opening part of ice making cavity, the flange through; a spiral ice skate is embedded in the ice making cavity and comprises an ice skate main body, a spiral twisted tooth, an upper end connecting shaft and a lower end connecting shaft, and a power output shaft of the reduction gearbox is connected with the lower end connecting shaft through a coupler; a coil pipe shell is sleeved on the periphery of the barrel body of the evaporation barrel, and an evaporator coil pipe is embedded in a coil pipe installation cavity between the coil pipe shell and the barrel body of the evaporation barrel; the ice outlet flange is provided with an ice outlet hole at the periphery of the flange through hole, the ice discharging barrel is arranged beside the ice making evaporation barrel, and the upper end part of the ice outlet flange is provided with an ice guide pipe. Through the structure design, the utility model has the advantages of structural design is novel, it is efficient to go out ice.

Drawings

The invention will be further described with reference to the drawings, but the embodiments in the drawings do not constitute any limitation of the invention.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of another view angle of the present invention.

Fig. 3 is a schematic structural view of the evaporation barrel assembly of the present invention.

Fig. 4 is a schematic sectional view of the evaporation barrel assembly of the present invention.

Fig. 5 is a schematic structural view of the barrel body of the evaporation barrel of the present invention.

Fig. 6 is a schematic structural view of the ice discharging flange of the present invention.

Fig. 1 to 6 include:

1-fixed mounting frame 2-compressor

3-evaporation barrel Assembly 31-Driving Motor

32-reduction gearbox 321-first duplicate gear shaft

322-second duplicate gear shaft 323-rear end gear

33-Ice making evaporating bucket 331-evaporating bucket base

332-evaporation barrel 3321-Ice making Chamber

3322 flange at lower end of barrel 3323 flange at upper end of barrel

3324 water chute 333 lower end plug

3331 plug through hole 334 ice discharging flange

3341 flange through hole 3342 ice outlet

3343 wedge-shaped block 335 spiral ice skate blade

3351 Ice skate body 3352 Upper end connecting shaft

3353 lower end connecting shaft 3354 screw thread

336-coupling 337-coil casing

338-evaporator coil 339-isolation cover

41-condenser 42-heat radiation fan

51-Water supply tank 52-Filter

6-ice discharging cylinder 7-ice guiding pipe.

Detailed Description

The present invention will be described with reference to specific embodiments.

As shown in fig. 1 to 6, the novel ice maker for snowflakes comprises a fixed mounting frame 1, wherein a compressor 2, an evaporation barrel assembly 3, a condenser 41 and a water supply tank 51 are arranged on the fixed mounting frame 1, the evaporation barrel assembly 3 comprises a driving motor 31, a reduction gearbox 32 and an ice making evaporation barrel 33, a box body of the reduction gearbox 32 is fixedly fastened on the fixed mounting frame 1 in a screwed mode, the driving motor 31 is fixedly arranged on the box body of the reduction gearbox 32 in a screwed mode, and the driving motor 31 is in driving connection with the reduction gearbox 32.

The ice making evaporation barrel 33 comprises an evaporation barrel base 331 and an evaporation barrel body 332 positioned on the upper end side of the evaporation barrel base 331, the evaporation barrel base 331 is screwed in a box body of the reduction gearbox 32, the evaporation barrel body 332 is vertically arranged, an ice making chamber 3321 which completely penetrates up and down is formed in the evaporation barrel body 332, a water outlet of the water supply water tank 51 is communicated with the ice making chamber 3321 through a water pipeline, a barrel body lower end flange 3322 part is arranged on the lower end edge part of the evaporation barrel body 332, a barrel body upper end flange 3323 part is arranged on the upper end edge part of the evaporation barrel body 332, and the barrel body lower end flange 3322 part of the evaporation barrel body 332 is screwed with the evaporation barrel base 331; the lower end plug 333 clamped between the evaporation barrel body 332 and the evaporation barrel base 331 is arranged at the lower end opening of the ice making chamber 3321, a plug through hole 3331 which completely penetrates up and down is formed in the middle of the lower end plug 333, an ice outlet flange 334 which is screwed and fastened at the upper end flange 3323 part of the barrel body is arranged at the upper end opening of the ice making chamber 3321, and a flange through hole 3341 which completely penetrates up and down is formed in the middle of the ice outlet flange 334.

Further, a spiral ice blade 335 extending vertically and coaxially arranged with the ice making chamber 3321 is embedded in the ice making chamber 3321 of the evaporation barrel body 332, the spiral ice blade 335 includes an ice blade main body 3351 having a cylindrical shape and being arranged vertically, a spiral twisted tooth 3354 extending spirally is arranged on an outer circumferential surface of the ice blade main body 3351, an upper end connecting shaft 3352 extending upward is arranged on an upper end surface of the ice blade main body 3351, a lower end connecting shaft 3353 extending downward and axially aligned with the upper end connecting shaft 3352 is arranged on a lower end surface of the ice blade main body 3351, the upper end connecting shaft 3352 is inserted into the flange through hole 3341 of the ice outlet flange 334, the lower end connecting shaft 3353 passes through the plug through hole 3331 of the lower plug 333 from top to bottom and extends to a lower end side of the lower plug 333, the power output shaft of the reduction gear box 32 is axially aligned with the lower end connecting shaft 3353 and the power output shaft of the reduction gear box 32 is connected to the lower end portion of the lower end connecting shaft 3353 through the coupling 336. It should be explained that a single spiral twisted tooth 3354 is welded on the outer circumferential surface of the ice skate main body 3351, and the single spiral twisted tooth 3354 has a single spiral structure; alternatively, a plurality of helical teeth 3354 are welded to the outer circumferential surface of the main ice skate body 3351, and the helical teeth 3354 have a multi-helix structure.

Furthermore, a coil casing 337 is sleeved on the periphery of the evaporation barrel body 332, a coil installation cavity is formed between the coil casing 337 and the evaporation barrel body 332, an evaporator coil 338 sleeved on the periphery of the evaporation barrel body 332 and contacting the evaporation barrel body 332 is embedded in the coil installation cavity, a refrigerant inlet end and a refrigerant outlet end of the evaporator coil 338 respectively penetrate through the coil casing 337 and extend to the outer end side of the coil casing 337, and the compressor 2, the condenser 41 and the evaporator coil 338 are sequentially connected to form a closed loop.

In addition, the ice outlet flange 334 is provided with ice outlet holes 3342 which are respectively completely penetrated up and down and uniformly distributed at intervals in a circumferential ring shape at the periphery of the flange through hole 3341, a vertically arranged lower ice drum 6 is installed beside the ice making evaporation drum 33, and an ice guide pipe 7 for guiding ice cubes discharged through the ice outlet holes 3342 to the lower ice drum 6 is installed at the upper end part of the ice outlet flange 334.

It should be noted that, for the reduction gearbox 32 of the present invention, the first duplicate gear shaft 321 and the second duplicate gear shaft 322 are installed inside the box body, the power output shaft of the driving motor 31 extends into the box body of the reduction gearbox 32, the power output shaft of the driving motor 31 is installed with the front end gear, and the power output shaft of the reduction gearbox 32 is installed with the rear end gear 323; the front end gear is engaged with the large gear of the first duplicate gear shaft 321, the small gear of the first duplicate gear shaft 321 is engaged with the large gear of the second duplicate gear shaft 322, and the small gear of the second duplicate gear shaft 322 is engaged with the rear end gear 323. In the process of the rotation action of the spiral ice blade 335, the driving motor 31 drives the spiral ice blade 335 to rotate after being decelerated by the reduction box 32; to reducing gear box 32, the gear wheel of front end gear and first duplicate gear axle 321 meshes and realizes the one-level speed reduction mutually, and the pinion of first duplicate gear axle 321 meshes and realizes the second grade speed reduction with the gear wheel of second duplicate gear axle 322 mutually, and the pinion of second duplicate gear axle 322 meshes and realizes tertiary speed reduction with rear end gear 323 mutually, promptly the utility model discloses a reducing gear box 32 realizes that big moment of torsion drive spiral skates 335 rotates through above-mentioned tertiary speed reduction structure to satisfy the requirement of high-efficient ice making.

The utility model discloses in the course of the work, the water in the water supply tank 51 is sent into to ice-making cavity 3321 in through corresponding conduit, the evaporator coil 338 that lets in the refrigerant contacts with evaporation bucket staving 332 and makes the water condensation in the ice-making cavity 3321 become the ice-cube, match and drive spiral skates 335 big moment of torsion when driving motor 31 and reducing gear box 32 rotate, the above-mentioned ice-cube that condenses and spiral skates 335 propelling movement up, and the ice-cube that is pushed up by spiral skates 335 discharges through the ice outlet 3342 that goes out ice flange 334, the ice-cube that is discharged by the ice outlet 3342 that goes out ice flange 334 leads to under to in the ice section of thick bamboo 6 through leading ice pipe 7, under ice section of thick bamboo 6 discharges the ice-cube, in order to realize the ice-making operation.

To the utility model discloses a condenser 41, for improving its radiating rate, the utility model discloses a cooling fan 42 is equipped with to condenser 41.

In order to guarantee the cleanliness of the water sent into the ice making chamber 3321, the utility model discloses a following structural design, it is specific: the water pipe connected with the water outlet of the water supply tank 51 is provided with a filter 52.

As a preferred embodiment, as shown in fig. 6, a wedge block 3343 in a wedge shape is disposed between two adjacent ice outlet holes 3342 of the ice outlet flange 334, and a width between two adjacent wedge blocks 3343 is gradually reduced along an ice outlet direction; preferably, each wedge block 3343 is integrated with the ice outlet flange 334; further preferably, the ice discharging flange 334 is a stainless steel flange.

When the spiral ice blade 335 drives the ice cubes to be conveyed from bottom to top and the ice cubes are made to pass through the ice outlet holes 3342 of the ice outlet flange 334, the ice cubes can be formed into ice particles by the extrusion effect as the width between two adjacent wedge blocks 3343 is gradually reduced along the ice outlet direction, i.e., the necking structure formed between two adjacent wedge blocks 3343 can extrude the ice cubes.

As a preferred embodiment, as shown in fig. 5, the inner wall of the evaporation barrel body 332 is provided with water chutes 3324 which extend vertically and are uniformly distributed at intervals in a circumferential ring shape. During the process that the rotating spiral ice blade 335 pushes the ice blocks to be conveyed from bottom to top, the water in the ice making chamber 3321 is also pushed upwards; through setting up the guiding gutter 3324 structure, the utility model discloses can guarantee that the in-process water at the propelling movement ice-cube can be along guiding gutter 3324 downflow, and then can guarantee effectively that the evaporation returns liquid.

As a preferred embodiment, as shown in fig. 4, in the process of ice blocks passing through the ice guiding pipe 7, in order to avoid water from permeating into the junction between the upper end connecting shaft 3352 and the ice discharging flange 334, the present invention adopts the following structural design, specifically: the upper end of the ice outlet flange 334 is fastened with a shielding cover 339 for covering the upper opening of the flange through hole 3341.

Synthesize above-mentioned condition and know, through above-mentioned structural design, the utility model has the advantages of structural design is novel, it is efficient to go out ice.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. A novel snowflake ice maker is characterized in that: the ice making machine comprises a fixed mounting frame (1), wherein the fixed mounting frame (1) is provided with a compressor (2), an evaporation barrel assembly (3), a condenser (41) and a water supply tank (51), the evaporation barrel assembly (3) comprises a driving motor (31), a reduction gearbox (32) and an ice making evaporation barrel (33), a box body of the reduction gearbox (32) is screwed and fastened on the fixed mounting frame (1), the driving motor (31) is screwed and mounted on the box body of the reduction gearbox (32), and the driving motor (31) is in driving connection with the reduction gearbox (32);

the ice making evaporation barrel (33) comprises an evaporation barrel base (331) and an evaporation barrel body (332) located on the upper end side of the evaporation barrel base (331), the evaporation barrel base (331) is screwed in a box body of the reduction gearbox (32), the evaporation barrel body (332) is vertically arranged, an ice making chamber (3321) which completely penetrates from top to bottom is formed in the evaporation barrel body (332), a water outlet of the water supply tank (51) is communicated with the ice making chamber (3321) through a water pipeline, a barrel body lower end flange (3322) part is arranged on the lower end edge part of the evaporation barrel body (332), a barrel body upper end flange (3323) part is arranged on the upper end edge part of the evaporation barrel body (332), and a barrel body lower end flange (3322) part of the evaporation barrel body (332) is screwed with the evaporation barrel base (331); the lower end opening of the ice making chamber (3321) is provided with a lower end plug (333) clamped between the evaporation barrel body (332) and the evaporation barrel base (331), the middle position of the lower end plug (333) is provided with a plug through hole (3331) which completely penetrates up and down, the upper end opening of the ice making chamber (3321) is provided with an ice outlet flange (334) which is screwed and fastened at the upper end flange (3323) part of the barrel body, and the middle position of the ice outlet flange (334) is provided with a flange through hole (3341) which completely penetrates up and down;

a spiral ice skate (335) which extends vertically and is coaxially arranged with the ice making chamber (3321) is embedded in the ice making chamber (3321) of the evaporation barrel body (332), the spiral ice skate (335) comprises an ice skate main body (3351) which is cylindrical and is arranged vertically, spiral twisted teeth (3354) which extends spirally are arranged on the outer circumferential surface of the ice skate main body (3351), an upper end connecting shaft (3352) which extends upwards is arranged on the upper end surface of the ice skate main body (3351), a lower end connecting shaft (3353) which extends downwards and is axially aligned with the upper end connecting shaft (3352) is arranged on the lower end surface of the ice skate main body (3351), the upper end connecting shaft (3352) is inserted into a flange through hole (3341) of the ice outlet flange (334), the lower end connecting shaft (3353) penetrates through a plug through hole (3331) of the lower end plug (333) from top to bottom and extends to the lower end side of the lower end plug (333), a power output shaft of the reduction gearbox (32) is axially aligned with the lower end connecting shaft (3353 The coupling (336) is connected with the lower end part of the lower end connecting shaft (3353);

a coil pipe shell (337) is sleeved on the periphery of the evaporation barrel body (332), a coil pipe installation cavity is formed between the coil pipe shell (337) and the evaporation barrel body (332), an evaporator coil pipe (338) which is sleeved on the periphery of the evaporation barrel body (332) and is in contact with the evaporation barrel body (332) is embedded in the coil pipe installation cavity, a refrigerant inlet end and a refrigerant outlet end of the evaporator coil pipe (338) respectively penetrate through the coil pipe shell (337) and extend to the outer end side of the coil pipe shell (337), and a compressor (2), a condenser (41) and the evaporator coil pipe (338) are sequentially connected and form a closed loop;

the ice outlet flange (334) is provided with ice outlet holes (3342) which are respectively completely penetrated up and down and are uniformly distributed at intervals in a circumferential ring shape at the periphery of the flange through hole (3341), a lower ice barrel (6) which is vertically arranged is arranged at the side of the ice making evaporation barrel (33), and an ice guide pipe (7) which guides ice blocks discharged through the ice outlet holes (3342) to the lower ice barrel (6) is arranged at the upper end part of the ice outlet flange (334).

2. The new ice maker of claim 1, wherein: a first duplicate gear shaft (321) and a second duplicate gear shaft (322) are arranged in the box body of the reduction box (32), a power output shaft of the driving motor (31) extends into the box body of the reduction box (32), a front end gear is arranged on the power output shaft of the driving motor (31), and a rear end gear (323) is arranged on the power output shaft of the reduction box (32);

the front end gear is meshed with a large gear of a first duplicate gear shaft (321), a small gear of the first duplicate gear shaft (321) is meshed with a large gear of a second duplicate gear shaft (322), and a small gear of the second duplicate gear shaft (322) is meshed with a rear end gear (323).

3. The new ice maker of claim 1, wherein: the ice outlet flange (334) is provided with a wedge-shaped wedge block (3343) between the two adjacent ice outlet holes (3342), and the width between the two adjacent wedge blocks (3343) is gradually reduced along the ice outlet direction.

4. The new ice maker of claim 3, wherein: each wedge block (3343) and the ice outlet flange (334) are of an integral structure.

5. The new ice maker of claim 4, wherein: the ice outlet flange (334) is a stainless steel flange.

6. The new ice maker of claim 1, wherein: and the upper end part of the ice outlet flange (334) is buckled with an isolation cover (339) for covering an opening at the upper end of the flange through hole (3341).

7. The new ice maker of claim 1, wherein: the outer circumferential surface of the ice skate main body (3351) is welded with a single spiral twisted tooth (3354), and the single spiral twisted tooth (3354) is of a single spiral structure; or a plurality of spiral twisted teeth (3354) are welded on the outer circumferential surface of the ice skate main body (3351), and the plurality of spiral twisted teeth (3354) are of a multi-spiral structure.

8. The new ice maker of claim 1, wherein: the inner wall of the evaporation barrel body (332) is provided with water guide grooves (3324) which vertically extend and are circumferentially and annularly and uniformly distributed at intervals.

9. The new ice maker of claim 1, wherein: the condenser (41) is equipped with a heat radiation fan (42).

10. The new ice maker of claim 1, wherein: a water pipe connected with the water outlet of the water supply tank (51) is provided with a filter (52).

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