CN211060457U - Ice slicing device - Google Patents

Abstract

The utility model discloses an ice-slicing device, which comprises an evaporator for icing water and a rotary main shaft connected with a motor for driving, wherein the rotary main shaft is connected with a water sprinkling tank and a water return tank; the rotary ice skate blade and the ice removing device are connected to the end part of the beam; the ice removing device comprises a transmission assembly and sliding blocks, the sliding blocks are uniformly distributed on the transmission assembly, a plurality of spiral grooves are uniformly distributed on the rotary skates, and the sliding blocks are in sliding fit with the spiral grooves so that the rotary skates rotate to drive the sliding blocks to move linearly, so that ice residues in the spiral grooves are cleaned; through setting up the device that removes ice, rotatory skates are at the pivoted in-process, and the helicla flute can drive the slider and move in the helicla flute to clear up the ice cinder of piling up in the helicla flute, thereby avoid the ice cinder to pile up and extrude the breakage in the helicla flute to the borneol of thin slice, thereby influence the shaping quality of piece ice, effectively improved the shaping quality of piece ice.

Description

Ice slicing device

Technical Field

The utility model relates to an ice making technical field, concretely relates to piece ice device.

Background

A flake ice maker which is one of ice makers and is generally an industrial ice maker; the produced ice is in a flake shape; the flake ice can be made of fresh water or salt water; the flake ice is flake, dry and loose white ice, the thickness is 3 mm to 5 mm, the shape of the product surface is irregular, and the diameter is about 12 mm to 45 mm; the existing flake ice machine is characterized in that a rotatable rotary ice blade is arranged in an evaporator, and the rotary ice blade is driven to rotate on the inner wall of the evaporator through the rotation of a rotary main shaft so as to flake ice on an ice layer formed by water flowing out of a water sprinkling tank and condensed on the inner wall of the evaporator; because the rotating ice skate blade is constantly contacted with the ice layer in the rotating process, ice slag can be accumulated in the groove of the rotating ice skate blade in the process of flake ice, so that the extruding effect on the flake ice is easily caused, the forming quality of the flake ice is greatly influenced, and the phenomenon that the forming quality of the flake ice is lower than the standard due to accumulation and extrusion of the ice slag in the rotating ice skate blade easily occurs.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the weak point that exists among the above-mentioned technique, provide a piece ice device, aim at solving above-mentioned rotatory skates and easily pile up the shaping quality problem that the ice sediment influences the piece ice.

The utility model provides an ice-slicing device, which comprises an evaporator for icing water and a rotary main shaft connected with a motor for driving, wherein the rotary main shaft is connected with a water sprinkling tank and a water return tank; the rotary ice skate blade and the ice removing device are connected to the end part of the beam; the deicing device comprises a transmission assembly and a sliding block, the sliding block is uniformly distributed on the transmission assembly, a plurality of spiral grooves are formed in the uniform distribution of the rotary skates, and the sliding block is in sliding fit with the spiral grooves so that the rotary skates rotate to drive the sliding block to perform linear motion, and ice slag in the spiral grooves is cleaned.

Further, the transmission assembly comprises a connecting rod, rollers and a transmission belt, the connecting rod is connected to the cross beam, the rollers are uniformly distributed on the connecting rod, the transmission belt is sleeved on the rollers, and the sliders are uniformly distributed on the transmission belt.

Furthermore, the device also comprises limiting plates, and the limiting plates are connected to the two sides of the roller through short shafts.

Furthermore, a rectangular through hole is formed in the cross beam, and the end part of the transmission assembly is located in the rectangular through hole.

Further, the section diameter of the sliding block is smaller than that of the spiral groove.

Further, the beam comprises an upper beam and a lower beam, and the rotary ice blade and the ice removing device are connected between the upper beam and the lower beam.

Further, the slider is of a sheet structure or a spherical structure.

The utility model discloses relative prior art has following beneficial effect:

through setting up the device that removes ice, rotatory skates are at the pivoted in-process, and the helicla flute can drive the slider and move in the helicla flute to clear up the ice cinder of piling up in the helicla flute, thereby avoid the ice cinder to pile up and extrude the breakage in the helicla flute to the borneol of thin slice, easily influence the shaping quality of piece ice, effectively improved the shaping quality of piece ice.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

FIG. 1 is a schematic view of an ice-slicing apparatus according to the present invention;

FIG. 2 is a view showing the combination of a rotary blade and a de-icing device of the ice-slicing device of the present invention;

FIG. 3 is a side view of a rotary ice blade and a deicing device of an ice-slicing device according to the present invention;

FIG. 4 is a top view of a rotary ice blade and an ice removing device of an ice-slicing device according to the present invention;

FIG. 5 is a schematic view of an ice removing device of an ice slicing device according to the present invention;

fig. 6 is a cross-sectional view of the roller of the ice-slicing device of the present invention.

In the figure, 1-evaporator; 2-rotating the main shaft; 3-water sprinkling tank; 4-a water return tank; 5-rotating the ice skate blade; 6-a de-icing device; 7-a cross beam; 8-rectangular through holes; 9-a limiting plate; 10-minor axis; 41-spiral groove; 61-a transmission assembly; 62-a slide block; 71-upper beam; 72-lower beam; 611-a connecting rod; 612-a roller; 613-a conveyor belt.

Detailed Description

In order to make the structure and features and advantages of the present invention easier to understand, preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 6, the present invention provides an ice sheet device, which comprises an evaporator 1 for icing water and a rotary main shaft 2 connected with a motor for driving, wherein the rotary main shaft 2 is connected with a water sprinkling tank 3 and a water return tank 4; the water sprinkling tank 3 is arranged at the upper end of the rotary main shaft 2 to sprinkle water to the inner wall of the evaporator 1 for icing; the water return tank 4 is arranged at the lower end of the rotary main shaft 2 to collect water flowing down from the inner wall of the evaporator 1; the ice making machine further comprises a rotary ice skate 5 and an ice removing device 6, wherein a cross beam 7 is arranged on the rotary main shaft 2, and the rotary ice skate 5 and the ice removing device 6 are connected to the end part of the cross beam 7 so as to drive the rotary ice skate 5 and the ice removing device 6 to rotate together through the rotation of the rotary main shaft 2; the deicing device 6 comprises a transmission assembly 61 and sliding blocks 62, the sliding blocks 62 are uniformly distributed on the transmission assembly 61, a plurality of spiral grooves 41 are uniformly distributed on the rotary ice skate 5, and the sliding blocks 62 are in sliding fit with the spiral grooves 41, so that the rotary ice skate 5 rotates to drive the sliding blocks 62 to perform linear motion, and ice residues in the spiral grooves 41 are cleaned; adopt above-mentioned technical scheme, through setting up deicing device 6, rotatory skates 5 is at the pivoted in-process, and helicla flute 41 can drive slider 62 and move in helicla flute 41 to clear up the ice cinder of piling up in helicla flute 41, thereby avoid the ice cinder to pile up and extrude the breakage in helicla flute 41 to the borneol of thin slice, easily influence the shaping quality of piece ice, effectively improved the shaping quality of piece ice.

Specifically, the transmission assembly 61 includes a connecting rod 611, rollers 612 and a transmission belt 613, the connecting rod 611 is connected to the cross beam 7, the rollers 612 are uniformly distributed on the connecting rod 611, the transmission belt 613 is sleeved on the rollers 612, and the sliders 62 are uniformly distributed on the transmission belt 613; specifically, the number of the rollers 612 is multiple, and the multiple rollers 612 are uniformly connected to the connecting rod 611, so as to provide a supporting strength for the belt 613, and prevent the belt 613 from jumping during the movement, thereby affecting the matching of the sliding block 62 and the spiral groove 41.

Specifically, the cross beam 7 is provided with a rectangular through hole 8, and the end of the transmission assembly 61 is located in the rectangular through hole 8 to avoid the sliding block 62 from interfering with the cross beam 7 during the movement of the transmission belt 613, so as to wear the rotating ice skate blade 5.

Specifically, the section diameter of the sliding block 62 is smaller than that of the spiral groove 41, so that the sliding block 62 reduces abrasion and avoids interference in the process of entering the spiral groove 41, and the service life of the rotary ice skate 5 is effectively prolonged.

Specifically, the sliding block 62 has a sheet structure or a ball structure, so that the sliding block 62 moves in the spiral groove 41, thereby pushing the ice slag in the spiral groove 41 to move downwards along the spiral groove 41, so as to remove the ice slag in the spiral groove 41.

The utility model discloses a theory of operation is: the rotary spindle 2 drives the rotary ice skate 5 to rotate on the inner wall of the evaporator 1 through a motor, and the rotary ice skate 5 is in contact with an ice layer on the evaporator 1 in the rotating process so as to enable the rotary ice skate 5 to rotate, so that ice flakes are formed on the ice layer; the deicing device 6 connected to the cross beam 7 is matched with the rotary ice skate blade 5 through a limiting block, so that the spiral groove 41 drives the sliding block 62 to vertically and linearly move in the autorotation process of the rotary ice skate blade 5, and the sliding block 62 can push the transmission assembly 61 to move under the driving of the spiral groove 41, so that the sliding block 62 is continuously conveyed into the spiral groove 41 to remove ice residues; specifically, the sliding blocks 62 uniformly distributed on the transmission assembly 61 enter each spiral groove 41 in sequence along with the rotation of the rotary ice skate 5, and form a vertical straight line in each spiral groove 41 to move; through rotatory skates 5 rotation to make helicla flute 41 drive slider 62 and carry out rectilinear motion, thereby promote drive assembly 61 and move, carry out the ice sediment clearance with every helicla flute 41 in the rotation skates 5 constantly, thereby avoid the ice sediment to pile up and extrude the breakage in helicla flute 41 to the borneol of thin slice, easily influence the shaping quality of piece ice, effectively improved the shaping quality of piece ice.

Example 2:

as shown in fig. 6, in combination with the technical solutions of embodiment 1 and embodiment 2, in this embodiment, the present invention further includes a limiting plate 9, and the limiting plate 9 is connected to two sides of the roller 612 through a short shaft 10; specifically, the short shaft 10 is connected to the connecting rod 611, the roller 612 is rotatably connected to the short shaft 10, and the position limiting plate 9 is fixedly connected to the short shaft 10 and located at two sides of the roller 612 to limit the position of the driving belt 613; the limiting plate 9 can effectively limit the belt, so that the belt does not deviate in the process of transmission on the roller 612, and the matching of the sliding block 62 and the spiral groove 41 is affected.

Example 3:

as shown in fig. 2 to 4, in combination with the technical solutions of embodiment 1 and embodiment 2, in this embodiment, the cross beam 7 includes an upper cross beam 71 and a lower cross beam 72, and the rotary ice blade 5 and the ice removing device 6 are connected between the upper cross beam 71 and the lower cross beam 72, so that the rotary spindle 2 drives the rotary ice blade 5 to rotate while revolving on the inner wall of the evaporator 1 during the rotation of the motor, so as to flake ice on the ice layer on the evaporator 1; the upper cross beam 71 and the lower cross beam 72 are arranged, so that the supporting strength of the rotary ice skate 5 and the support strength of the ice removing device 6 can be effectively improved, and the stability of the rotary ice skate 5 can be effectively improved.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications to the technical solution of the present invention without departing from the scope of the technical solution of the present invention, or to modify equivalent embodiments with equivalent variations. Therefore, any modification, equivalent change and modification of the above embodiments according to the present invention are all within the protection scope of the present invention.

Claims (7)

1. An ice slicing device comprises an evaporator (1) for icing water and a rotary main shaft (2) connected with a motor for driving, wherein the rotary main shaft (2) is connected with a water sprinkling tank (3) and a water return tank (4); the device is characterized by further comprising a rotary ice skate (5) and an ice removing device (6), wherein a cross beam (7) is arranged on the rotary main shaft (2), and the rotary ice skate (5) and the ice removing device (6) are connected to the end part of the cross beam (7); the deicing device (6) comprises a transmission assembly (61) and a sliding block (62), wherein the sliding block (62) is uniformly distributed on the transmission assembly (61), a plurality of spiral grooves (41) are uniformly distributed on the rotary ice skate (5), and the sliding block (62) is in sliding fit with the spiral grooves (41) so that the rotary ice skate (5) rotates to drive the sliding block (62) to perform linear motion, thereby cleaning ice slag in the spiral grooves (41).

2. The ice making apparatus according to claim 1, wherein the transmission assembly (61) comprises a connecting rod (611), rollers (612) and a transmission belt (613), the connecting rod (611) is connected to the cross beam (7), the rollers (612) are uniformly arranged on the connecting rod (611), the transmission belt (613) is sleeved on the rollers (612), and the sliding blocks (62) are uniformly arranged on the transmission belt (613).

3. Ice sheeting apparatus as claimed in claim 2, further comprising a retaining plate (9), wherein the retaining plate (9) is connected to both sides of the roller (612) by a stub shaft (10).

4. Ice making device according to claim 3, characterised in that said cross-beam (7) is provided with a rectangular through-hole (8), the end of said transmission assembly (61) being located in said rectangular through-hole (8).

5. Ice sheeting apparatus according to claim 4, wherein the cross-sectional diameter of the slider (62) is smaller than the cross-sectional diameter of the helical groove (41).

6. Ice shaving apparatus according to claim 1, characterised in that the cross-beam (7) comprises an upper cross-beam (71) and a lower cross-beam (72), the rotary ice blade (5) and the de-icing means (6) being connected between the upper cross-beam (71) and the lower cross-beam (72).

7. Ice cube device according to one of the claims 1 to 6, characterized in that the slider (62) is of a sheet-like or spherical structure.

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