WO2014077534A1 - Ice ball making apparatus - Google Patents

Abstract

The present invention relates to an ice ball making apparatus, and particularly, to an ice ball making apparatus having a hemispheric bowl for making ice balls and provided with a cooling means and a heat supplying means at the hemispheric bowl, and comprising a rotating means which rotates the ice formed in the hemispheric bowl so as to make globe-shaped ice balls by using one hemispheric bowl. The present invention comprises: the hemispheric bowl having a cooling line and a heating line at a surface thereof; an ice supporting means coupled to a groove of the hemispheric bowl and provided with a plurality of protrusions formed on the front surface thereof so that the ice supporting means moves the ice balls to the upper side while rotating; a rotation force supplying means which provides rotation force to a guide rod, provided at a rear side of the ice supporting means, to rotate the guide rod, thereby rotating the ice supporting means; a left and right moving means which, as a means for moving the guide rod of the ice supporting means left and right, retracts the guide rod backward when ice is formed at the hemispheric bowl to induce only the globe-shaped ice to remain alone; a water supply means provided at one end of an upper part of the hemispheric bowl and supplying water to the hemispheric bowl to form ball-shaped ice; and the heating means provided at the surface or on the inside of the ice supporting means and the plurality of protrusions for providing heat to separate the ice supporting means from the ice when the ice is completely formed at the hemispheric bowl. [Reference drawing] Fig. 3

Description

Ice Ball Maker

The present invention relates to an ice ball manufacturing apparatus, and in particular, having a hemisphere for producing ice balls, provided with a cooling means and a heat providing means in the hemisphere, and provided with a rotating means for rotating the ice formed in the hemisphere. It relates to an ice ball manufacturing apparatus characterized by producing a spherical ice ball using.

In general, the cold and hot water purifier stores the purified water and cools or heats the purified water to supply cold water and hot water to the user. Each storage water tank is provided and stored for a predetermined time to be supplied as needed. .

In other words, the purified water tank for storing purified water, the cold water tank for storing cold water, and the hot water tank for storing hot water are provided, and the purified water passes through the cold water system and the hot water system during the movement.

Recently, ice water purifiers are further developed and sold with an ice making system capable of producing ice in these cold and hot water purifiers to provide cold water and hot water as well as ice.

1 is a view showing a conventional ice water generating device, Figure 2 is a view showing an operating state of the conventional water producing ice device.

As shown in the figure, the ice making system 1 of the ice water purifier includes an ice-making tank 2 in which ice-making water is contained and a plurality of immersion tubes 4 are immersed in the ice-making water contained in the ice-making tank 2 along the inside. A refrigerant pipe 3 is provided for generating ice by the moving refrigerant.

In addition, a return storage unit 6 having an inclined grill 7 at the upper side is provided below the ice making tank 2, and an ice storage unit 8 is provided at the inclined lower end of the grill 7.

After the immersion pipes 4 are immersed in the ice-making water contained in the ice-making tank 2, the refrigerant is supplied to the refrigerant pipe 3 to generate ice, and then the ice-making tank 2 is driven by the driving motor 5. It rotates to the upper side of the grill 7 of the return storage unit 6 to move the ice and ice contained in the ice-making tank (2).

At this time, the ice making water is stored in the ice making water storage unit 6 through the grill (7), the ice is caught in the grill 7, and then moved to the ice storage unit (8) by the inclination thereof and stored.

Cold ice and hot water as well as ice can be provided by the ice making system 1 of the ice purifier, thereby providing convenience to the user.

However, this type of ice has a problem that the hole must be formed inside, and also can not produce ice in the form of a complete sphere.

The present invention is to solve the above problems, it is an object to configure the ice to be produced in one complete sphere shape when generating ice in the water purifier.

As a means for achieving the above object,

The present invention comprises a hemisphere (10) having a cooling line (12) and a heating line (13) on the surface; An ice support means 20 coupled to the groove 11 of the hemisphere 10 to move the ice upward while forming a plurality of protrusions 21 on the front surface and rotating the ice; Rotational force supply means (30) to rotate the ice support means (20) by rotating the guide rods by providing rotational power to the guide rods (22) installed at the rear of the ice support means (20); Left and right flow means 40 for moving the guide rods 22 of the ice support means 20 to the left and right to retreat backward when all the ice is formed in the hemisphere so that only spherical ice remains; Water supply means (50) installed at an upper end of the hemisphere (10) and supplying water to the hemisphere (10) so that ball ice can be formed; It is installed on the surface or the inside of the ice support means 20 and the plurality of protrusions and includes a heating means for providing a heating heat to separate the ice support means 20 from the ice when all the ice is formed in the hemisphere 10 It is characterized by the configuration.

In addition, the rotational force supply means 30 is characterized in that the gear 31 is formed on the guide rod 22, the electric motor 32 is engaged with the gear.

In addition, the left and right flow means 40 is composed of a housing 41 and a cylinder 42 for accommodating the gear 31 and the electric motor 32 of the guide rod 21, and drives the cylinder 42 By moving the piston (42a) is characterized in that the housing 41 is moved forward and backward so that the guide rod 22 and the ice support means 20 is moved forward and backward.

In addition, hemispheres (10) having a cooling line (12) and a heating line (13) on the surface; An ice support means 20 coupled to the groove 11 of the hemisphere 10 to move the ice upward while forming a plurality of protrusions 21 on the front surface and rotating the ice; Rotational force supply means (30) to rotate the ice support means (20) by rotating the guide rods by providing rotational power to the guide rods (22) installed at the rear of the ice support means (20); A box body (70) for casing the rotational force supply means (30); A support bar 60 connecting the box body; Rotating the support bar to rotate the box body by rotating the ice support means characterized in that it comprises a rotating motor 90 for discharging the ice to the outside.

As described above, the present invention provides an effect of producing spherical ice in the water purifier by adding a rotary device and a reciprocating feeder.

1 and 2 is a block diagram of a conventional ice making apparatus.

Figure 3 is a state filled with water in the ice production apparatus of the present invention.

Figure 4 is an operation of rotating the ice in the ice production apparatus of the present invention.

Figure 5 is an operating state of the water in the ice during the rotation of the ice manufacturing apparatus of the present invention.

Figure 6 is a state frozen in the ice manufacturing apparatus of the present invention to the rest of the hemisphere.

7 is a view showing that the ball ice is completed in the ice production apparatus of the present invention.

8 is a view showing separating the ice support device from the completed ice ball in the present invention.

9 and 10 is a view showing the discharge of the completed ball ice using a rotating motor as an embodiment of the present invention.

11 is a view showing that the ball ice completed by the present invention by discharging by rotating to put in the holder.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Terms to be described later are set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and the definitions should be made based on the contents throughout the present specification.

Figure 3 is a state filled with water in the ice production apparatus of the present invention.

Figure 4 is an operation of rotating the ice in the ice production apparatus of the present invention.

Figure 5 is an operating state of the water in the ice during the rotation of the ice manufacturing apparatus of the present invention.

Figure 6 is a state frozen in the ice manufacturing apparatus of the present invention to the rest of the hemisphere.

7 is a view showing that the ball ice is completed in the ice production apparatus of the present invention.

8 is a view showing the separation of the ice support device from the completed ice ball in the present invention,

The component of the present invention has a hemisphere (10) having a large space on the inside and having a cooling line (12) and a heating line (13) on the surface, and ice support means (20) coupled to one side of the hemisphere (10) And a plurality of protrusions 21 coupled to the front surface of the ice support means 20, rotational force supply means 30 for rotating the ice support means 20, and the ice support means 20 from side to side. It consists of the left and right flow means 40 which reciprocate, the water supply means 50, and a heating means.

The hemisphere 10 is made of a case shape having a space for filling water therein. That is, the hemisphere 10 is applied to the present invention is made of a predetermined thickness but has a structure that can fill the water in the space to secure the space inside. In addition, an arc-shaped groove 11 is formed on one side. In addition, the cooling line 12 is formed on the surface of the hemisphere 10 so that the cooling is possible when water is put into the hemisphere, and the heating line 13 is formed on the surface of the hemisphere 10 to form the interior of the hemisphere. Allowing ice to separate from the surface of the hemisphere.

The ice support means 20 is made in the form of a disk, and is coupled to the groove 11 of the hemisphere 10, and when ice is formed in the hemisphere 10, the ice is rotated and formed on the front to move the ice upward. do. And, the rear of the guide rod 22 is made.

The rotational force supply means 30 provides the rotational power to the guide rod 22 installed on the rear side of the ice support means to rotate the guide rod so that the ice support means 20 rotates. The rotational force supply means 30 is formed by forming a gear 31 on the guide rod 22 and having an electric motor 32 engaged with the gear, and the electric motor 32 of the electric motor 32 The gear 32 of the gear 32a and the guide rod 22 rotate to allow the ice support means 20 to rotate by rotating the guide rod 22.

The left and right flow means 40 is a means for flowing the guide rod 22 to the left and right when all the ice is formed in the hemisphere retreats to induce so that only the spherical ice remains alone. That is, the left and right flow means 40 is composed of a housing 41 and a cylinder 42 for accommodating the gear 31 and the electric motor 32 of the guide rod 22, driving the cylinder 42 to the piston By moving 42a, the housing 41 is advanced back and forth, and the guide rod 22 and the ice support means 20 are advanced back and forth.

The water supply means 50 is installed at the upper end of the hemisphere 10 to supply water to the hemisphere 10 so that ball ice can be formed.

The heating means is installed on the surface or the inside of the ice support means 20 and the plurality of protrusions and provides heating heat to separate the ice support means 20 from the ice when all the ice is formed in the hemisphere 10. The heating means is omitted separately. That is, the heating means may be variously formed, and the heating concept is omitted because it is a general matter.

Hereinafter, the assembly method of the present invention will be described.

The present invention comprises a hemisphere 10, an ice support means 20, a rotational force supply means 30, a left and right flow means 40, a water supply means 50, and a heating means.

The water supply means 50 is installed on the upper part of the hemisphere 10 so that a proper amount of water is delivered to the hemisphere.

Cooling line 12 is formed on the outside of the hemisphere 10, the heating line 13 is formed on the inside, accordingly, if the water is present in the hemisphere 10 to operate the cooling line 12 To freeze.

The ice support means 20 is installed in the sliding groove 11 of the hemisphere 10. At this time, the front surface of the ice support means 20 is formed with a plurality of projections 21 for supporting when the ice is frozen.

The rotational force supply means 30 is installed on the back of the guide rod 22 of the ice support means 20 is configured to rotate the ice support means 180 degrees as necessary.

Then, the left and right flow means 40 is installed at one end of the guide rod to enable the guide rod 22 to move forward or backward.

Looking at the operation of the present invention below.

The present invention puts water into the hemisphere 10 using the water supply means (50). At this time, the ice support means 20 is already coupled to the sliding groove 11 of the hemisphere (10).

After filling the hemisphere 10 with water as described above, the water present in the hemisphere is frozen using the cooling line 12.

Then, when all the water is frozen, the ice is slightly melted by the heating means 13 present in the hemisphere 10 so that the ice can be separated from the inner surface of the hemisphere 10.

When the ice is separated from the hemisphere 10 through the above operation, the ice support means 20 is rotated 180 degrees using the rotational force supply means 30. Then, 180 degrees of rotation is performed while the ice is attached to the protrusion 21 of the ice support means 20.

While the ice is rotating, water is put back into the hemisphere by using the water supply means 50.

Then, after all the water is filled up to freeze the water through the cooling line 12 so that the ice in the form of a complete sphere with the ice present at the top.

As described above, when the spherical ice is completed, the heating device 13 of the ice support means 20 is operated to heat the ice support means 20 to thereby separate the ice support means 20 from the ice.

When the ice support means 20 is separated from the ice, the ice support means 20 is drawn out to the outside using the left and right flow means 40, and the heating means of the hemisphere 10 are heated to separate the surface of the ice and the hemisphere so that spherical ice is produced.

9 and 10 is a view showing the discharge of the ball ice completed by using a rotating motor as an embodiment of the present invention, Figure 11 is to discharge the ball ice completed by the present invention by rotating the containing in the storage box As shown,

As shown in the figure, the rotary motor 90 and the support bar 60 are configured, and the support bar 60 is mounted with the rotational force supply means box body 70 and is contained in the rotational force supply means box body 70. When the ball ice is completed in the ball ice box 100 by the rotational force supply means 30 is configured to rotate the rotating motor 90 by 180 degrees to discharge to the holder (80).

That is, the present invention may discharge the ball ice by the left and right flow, but may also discharge the ball ice by the rotating means.

In other words, in the embodiment of the present invention is equipped with a rotational force supply means 30 in the rotational force supply means box body 70 to complete the ball ice production by rotation, and when the ball ice production is completed, the support bar is driven by driving the rotating motor Rotating, the rotational force supply means box body 70 and the ice support means 20 is rotated by the rotation of the support bar so that the ball ice is released from the hemisphere 10, the ball ice (1) from the hemisphere When the ball ice (1) and the ice support means 20 is separated by the operation of the heating means to complete the ball ice production.

And, the ice discharged as described above is to be put in the storage box so that the user can easily learn to eat ice to see.

[Description of the code]

10: hemisphere

20: ice support

30: rotational force supply means

40: left and right flow means

50: water supply means

60: support bar

70: rotational force supply means box body

80: storage box

90: rotating motor

Claims (4)

1. A hemisphere 10 having a cooling line 12 and a heating line 13 on its surface;

   An ice support means 20 coupled to the groove 11 of the hemisphere 10 to move the ice upward while forming a plurality of protrusions 21 on the front surface and rotating the ice;

   Rotational force supply means (30) to rotate the ice support means (20) by rotating the guide rods by providing rotational power to the guide rods (22) installed at the rear of the ice support means (20);

   Left and right flow means 40 for moving the guide rods 22 of the ice support means 20 to the left and right to retreat backward when all the ice is formed in the hemisphere so that only spherical ice remains;

   Water supply means (50) installed at an upper end of the hemisphere (10) and supplying water to the hemisphere (10) so that ball ice can be formed;

   It is installed on the surface or the inside of the ice support means 20 and the plurality of protrusions and includes a heating means for providing a heating heat to separate the ice support means 20 from the ice when all the ice is formed in the hemisphere 10 Ice ball manufacturing apparatus characterized in that the configuration.
2. The method of claim 1,

   The rotational force supply means 30,

   Ice ball manufacturing apparatus, characterized in that the gear formed on the guide rod (22), and provided with an electric motor (32) engaging the gear.
3. The method of claim 1,

   The left and right flow means 40,

   It consists of a housing 41 and a cylinder 42 for accommodating the gear 31 and the electric motor 32 of the guide rod 21, the housing 41 by driving the cylinder 42 to flow the piston 42a Ice ball production apparatus, characterized in that the guide rod 22 and the ice support means 20 is moved forward and backward.
4. A hemisphere 10 having a cooling line 12 and a heating line 13 on its surface;

   An ice support means 20 coupled to the groove 11 of the hemisphere 10 to move the ice upward while forming a plurality of protrusions 21 on the front surface and rotating the ice;

   Rotational force supply means (30) for rotating the guide rod by providing rotational power to the guide rod (22) installed at the rear of the ice support means (20) to rotate the ice support means (20);

   A box body (70) for casing the rotational force supply means (30);

   A support bar 60 connecting the box body;

   Ice ball manufacturing apparatus comprising a rotary motor 90 for rotating the ice support means by rotating the box body by rotating the support bar to discharge the ice to the outside.

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