CN107144065B

CN107144065B - Ice making mold and ice making method thereof

Info

Publication number: CN107144065B
Application number: CN201710335950.3A
Authority: CN
Inventors: 郭动; 李忠强; 陈忠峻
Original assignee: Qingdao Haier Co Ltd
Current assignee: Haier Smart Home Co Ltd
Priority date: 2017-05-12
Filing date: 2017-05-12
Publication date: 2020-08-28
Anticipated expiration: 2037-05-12
Also published as: CN107144065A

Abstract

The invention provides an ice making mold and an ice making method thereof, wherein the ice making mold comprises: the ice making mold is provided with at least one first ice making grid, and the first ice making grid is provided with a feeding port penetrating through the first ice making grid; the ice discharging die is provided with a second ice making grid which can form an ice making cavity with the first ice making grid in an enclosing manner; the inflation plug comprises an inflation tube matched with the shape of the feeding port and an expansion ball connected to one end of the inflation tube, the expansion ball can be switched between an expansion state and a contraction state, and the expansion ball can enter/exit the ice making cavity from the feeding port when the expansion ball is in the contraction state; after the inflation plug is installed on the ice loading mold and the expansion ball in the ice making cavity is in an expansion state, liquid in the ice making cavity is filled between the expansion ball and the ice making cavity, so that hollow ice blocks can be frozen and formed, and meanwhile, some meaningful things such as fonts and fluorescent objects can be placed in the ice making cavity as required.

Description

Ice making mold and ice making method thereof

Technical Field

The invention relates to the field of ice making devices, in particular to an ice making mold capable of preparing hollow ice blocks and an ice making method thereof.

Background

The existing ice making mould is used for preparing irregular or square or spherical solid ice blocks. In the process of preparing the solid ice block, the surface is frozen firstly, so that impurities and air in water are extruded towards the center, and finally, the prepared solid ice block is easy to have opaque cloud-shaped objects and insufficient glittering and translucent degree. Meanwhile, many ice cubes are used for freezing beverages, solid ice cubes have a slow speed for freezing the beverages and easily cause the taste of the frozen beverages to become light, and hollow ice cubes can achieve the effects of quickly freezing the beverages and preventing the taste of the frozen beverages from becoming too light.

In view of the above, it is desirable to provide a new ice making mold and an ice making method thereof to solve the above problems.

Disclosure of Invention

The invention aims to provide an ice making mold capable of preparing hollow ice blocks and an ice making method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme: an ice-making mold comprising: the ice making device comprises an ice making die and a control module, wherein the ice making die is provided with at least one first ice making grid, and the first ice making grid is provided with a feeding port penetrating through the first ice making grid; the lower ice mold is provided with second ice making grids which correspond to the first ice making grids one by one, and after the upper ice mold is buckled with the lower ice mold, the first ice making grids and the second ice making grids corresponding to the first ice making grids are enclosed to form an ice making cavity for making ice; the inflation plug comprises an inflation tube, an expansion ball and an inflation valve, wherein the inflation tube is matched with the shape of the feeding port, the expansion ball is connected to one end of the inflation tube, the inflation valve is used for controlling the on-off of the inflation tube, the expansion ball can be switched between an expansion state and a contraction state, and when the expansion ball is in the contraction state, the expansion ball can enter/exit the ice making cavity from the feeding port.

As a further improved technical solution of the present invention, the inflation plug further includes a positioning block connected to the inflation tube, so that the expansion ball is located in the middle of the ice making chamber after the inflation plug is mounted on the ice loading mold.

As a further improved technical scheme of the invention, the ice making mould also comprises a water injection pipe communicated with a water source; the first ice cube tray is provided with a through hole, and one end of the water injection pipe, which is far away from the water source, is connected to the through hole.

As a further improved technical scheme of the invention, the ice making mould also comprises a water injection pipe communicated with a water source; the water injection pipe is far away from the one end of water source with the pan feeding mouth can dismantle and be connected.

As a further improved technical scheme of the invention, a bulge is convexly arranged at the position, close to the feeding port, of the first ice cube tray, and a buffer cavity communicated with the first ice cube tray is arranged in the bulge.

As a further improved technical scheme of the invention, the upper ice mold and the lower ice mold are made of soft materials.

As a further improved technical scheme of the invention, the first ice making grid is formed by being recessed from one side of the upper ice mold facing the lower ice mold to a direction far away from the lower ice mold; the second ice cube tray is formed by sinking from one side of the lower ice mold facing the upper ice mold to a direction far away from the upper ice mold.

As a further improved technical scheme of the invention, the first ice cube tray and the second ice cube tray are both hemispherical.

To achieve the above object, the present invention also provides an ice making method, comprising the steps of:

providing the ice making mold;

buckling an upper ice mold and a lower ice mold to form an ice making cavity;

injecting a preset amount of liquid into the ice making cavity;

when the expansion ball is in a contraction state, firstly, the inflation plug is installed on the ice loading die so that the expansion ball enters the ice making cavity from the material inlet, and then, the expansion ball is in an expansion state;

placing the ice-making mold provided with the inflation plug in a cooling environment;

after the liquid is frozen and formed, the expansion ball is in a contraction state, and after the expansion ball is taken out, the upper ice mold and the lower ice mold are separated, so that the prepared ice blocks can be obtained.

As a further improved technical solution of the present invention, after the liquid is frozen and formed, the method for making the expansion ball in the contraction state specifically comprises the following steps: and opening an inflation valve, inflating hot air into the expansion ball through the inflation tube to separate the expansion ball from the ice blocks, and discharging the hot air in the expansion ball to enable the expansion ball to be in a contraction state.

The invention has the beneficial effects that: the inflation plug in the ice making mold comprises an expansion ball which can be switched between an expansion state and a contraction state, and the expansion ball can enter/exit the ice making cavity from the feeding port when the expansion ball is in the contraction state; after the inflation plug is installed on the ice loading mold and the expansion ball in the ice making cavity is in an expansion state, liquid in the ice making cavity is filled between the expansion ball and the ice making cavity, so that on one hand, hollow ice blocks can be frozen and formed, and meanwhile, some meaningful things such as fonts, fluorescent objects and the like can be placed in the ice making cavity as required; on the other hand, the gap between the expansion ball and the ice making cavity is small, so that the thickness of the made ice blocks is small, and the ice making efficiency is accelerated.

Drawings

Fig. 1 is a schematic structural view of an ice-making mold in the present invention.

Fig. 2 is an exploded view of the ice-making mold in fig. 1.

Fig. 3 is a flowchart of an ice making method in the present invention.

Detailed Description

The present invention will be described in detail with reference to the embodiments shown in the drawings, and reference is made to fig. 1 to 3, which are preferred embodiments of the present invention.

Referring to fig. 1 to 3, an ice making mold 100 for making hollow ice cubes according to the present invention includes an upper ice mold 1, a lower ice mold 2 matched with the upper ice mold 1, and an air filling plug 3.

The ice making machine is characterized in that at least one first ice making cell 11 is arranged on the upper ice mold 1, second ice making cells 21 in one-to-one correspondence with the first ice making cells 11 are arranged on the lower ice mold 2, and after the upper ice mold 1 and the lower ice mold 2 are buckled, the first ice making cells 11 and the second ice making cells 21 corresponding to the first ice making cells 11 are enclosed to form an ice making cavity for making ice, so that in the process of freezing liquid in the ice making cavity into ice blocks, the liquid is not in contact with the outside, the smell of the liquid can be prevented from being mixed or impurities can be prevented, and the quality of the made ice blocks can be improved.

In the present embodiment, the liquid is described by taking water as an example, but the liquid is not limited to water.

Furthermore, a protrusion 13 is convexly arranged on the first ice making grid 11, and a buffer cavity communicated with the first ice making grid 11 is arranged in the protrusion 13, so that after water in the ice making cavity is frozen from a liquid state to a solid state, part of ice blocks with increased volume can enter the buffer cavity, the ice making cavity is prevented from being damaged by being supported, the upper ice mold 1 is separated from the lower ice mold 2, and the made ice blocks are deformed.

The upper ice mold 1 and the lower ice mold 2 are made of soft materials, for example, soft silica gel or other soft materials meeting food safety requirements, so that ice cubes can be taken out conveniently. Accordingly, after the water in the ice making chamber is frozen into ice cubes and the upper and lower ice molds 1 and 2 are separated, the ice cubes adhered to the first ice making cells 11 can be taken out by twisting the upper ice mold 1, and the ice cubes adhered to the second ice making cells 21 can be taken out by twisting the lower ice mold 2.

The first ice cube tray 11 is formed by being recessed from one side of the upper ice mold 1 facing the lower ice mold 2 to a direction away from the lower ice mold 2, and the second ice cube tray 21 is formed by being recessed from one side of the lower ice mold 2 facing the upper ice mold 1 to a direction away from the upper ice mold 1.

In this embodiment, the first ice cube tray 11 and the second ice cube tray 21 are both hemispherical, and after the upper ice mold 1 and the lower ice mold 2 are fastened, the first ice cube tray 11 and the second ice cube tray 21 corresponding to the ice cube tray 11 can enclose to form a spherical ice making cavity, so that spherical ice cubes can be prepared.

Of course, in other embodiments, the first ice-making housing 11 and the second ice-making housing 21 may be provided in other shapes as needed.

Further, the ice making mold 100 further comprises an inflation plug 3, the inflation plug 3 comprises an inflation tube 31, an inflation valve for controlling the on-off of the inflation tube 31, and an expansion ball 32 connected to one end of the inflation tube 31, and the expansion ball 32 can be switched between an expansion state and a contraction state.

After the inflation ball 32 is inflated with gas to make the inflation ball 32 in the inflated state, the inflation valve is closed to make the inflation ball 32 in the inflated state all the time; when the inflation valve is in the open state, the inflation ball 32 is in the deflated state.

The first ice making grid 11 is provided with a feeding port 12, the outer diameter of the air charging pipe 31 is the same as the inner diameter of the feeding port 12, when the expansion ball 32 is in a contracted state, the expansion ball 32 can enter/exit the ice making cavity from the feeding port 12, so that when hollow ice blocks need to be prepared, a preset amount of water is firstly injected into the ice making cavity, the air charging plug 3 is installed on the upper ice mold 1, the expansion ball 32 is positioned in the ice making cavity, then gas is filled into the expansion ball 32 through the air charging pipe 31 to make the expansion ball 32 in an expanded state, when the expansion ball 32 is in the expanded state, the liquid in the ice making cavity fills the gap between the expansion ball 32 and the ice making cavity, on one hand, the hollow ice blocks can be frozen and formed, and meanwhile, some meaningful things can be placed in the ice making cavity as required, such as fonts, fluorescent objects, etc.; on the other hand, since the gap between the expansion ball 32 and the ice making chamber is small, the thickness of the made ice blocks is thin, thereby accelerating the ice making efficiency.

Specifically, when the expansion ball 32 needs to be placed into the ice making cavity or the expansion ball 32 needs to be taken out of the ice making cavity, the inflation valve is opened, so that the gas in the expansion ball 32 is released, and the expansion ball 32 is in a contracted state so as to be convenient for entering the expansion ball 32 into the ice making cavity or taking out the expansion ball 32 from the material inlet 12.

Further, the gas filling plug 3 further comprises a positioning block connected to the gas filling pipe 31, so that the expansion ball 32 is positioned in the middle of the ice making chamber after the gas filling plug 3 is mounted on the ice making mold 1, thereby making it possible to prepare ice cubes with hollow centers.

Specifically, the protrusion 13 is disposed on the first ice cube tray 11 at a position close to the feeding port 12.

Further, the ice making mold 100 further comprises a water injection pipe communicated with a water source, wherein one end of the water injection pipe, which is far away from the water source, is connected with the first ice making cell 11, so that after the upper ice mold 2 and the lower ice mold 2 are fastened to form an ice making cavity, a preset amount of water can be injected into the ice making cavity through the water injection pipe.

Specifically, a through hole is formed in the first ice cube tray 11, one end, far away from a water source, of the water injection pipe is connected to the through hole, and the connection can be fixedly connected or detachably connected.

In this embodiment, the through-hole is promptly pan feeding mouth 12, the water injection pipe is kept away from the one end at water source with the connection can be dismantled to pan feeding mouth 12, promptly, the water injection pipe can install extremely pan feeding mouth 12, and certainly the pan feeding mouth 12 can with after pouring into the water of predetermineeing the volume into in the ice-making cavity the water injection pipe certainly the pan feeding mouth is detached.

After the upper ice mold 1 and the lower ice mold 2 are buckled to form an ice making cavity, the water injection pipe is connected with the material inlet 12 so as to inject a preset amount of water into the ice making cavity through the water injection pipe, then the water injection pipe is detached, the inflation plug 3 is installed at the material inlet 12 so that the expansion ball 32 enters the ice making cavity, gas is filled into the expansion ball 32 through the inflation pipe 31 so that the expansion ball 32 is in an expansion state, then the inflation valve is closed, and the water in the ice making cavity is filled between the expansion ball 32 and the ice making cavity so as to be frozen to form hollow ice blocks.

The present invention also provides an ice making method, comprising the steps of:

s1: providing the ice-making mold 100 described above;

s2: the upper ice mold 1 and the lower ice mold 2 are buckled to form an ice making cavity;

after the upper ice mold 1 and the lower ice mold 2 are fastened, the first ice cube tray 11 and the second ice cube tray 21 corresponding to the first ice cube tray 11 are enclosed to form the ice making cavity.

S3: injecting a preset amount of liquid into the ice making cavity;

the ice making mold 100 further comprises a water injection pipe communicated with a water source, wherein one end, far away from the water source, of the water injection pipe is connected with the first ice making grid 11, so that after the upper ice mold 2 and the lower ice mold 2 are buckled to form an ice making cavity, a preset amount of water can be injected into the ice making cavity through the water injection pipe.

When solid ice blocks need to be prepared, filling a preset amount of liquid into the ice making cavity; when the hollow ice blocks need to be prepared, a small amount of liquid is injected into the ice making cavity.

S4: when the expansion ball 32 is in the contraction state, firstly, the inflation plug 3 is installed on the ice loading mould 1 to enable the expansion ball 32 to enter the ice making cavity from the material inlet 12, and then, the expansion ball 32 is in the expansion state;

after the expansion ball 32 is in an expansion state and the inflation valve is closed, the liquid in the ice making cavity fills the gap between the expansion ball 32 and the ice making cavity, on one hand, hollow ice blocks can be frozen and formed, and meanwhile, some meaningful things such as fonts, fluorescent objects and the like can be placed in the ice making cavity as required; on the other hand, since the gap between the expansion ball 32 and the ice making chamber is small, the thickness of the made ice blocks is thin, thereby accelerating the ice making efficiency.

S5: placing the ice-making mold 100 with the charging plug 3 in a cooling environment;

the purpose of step S5 is to freeze the water in the ice making chamber into ice cubes to form hollow ice cubes.

S6: after the liquid is frozen and formed, the expansion ball 32 is in a contraction state, and after the expansion ball 32 is taken out, the upper ice mold 1 and the lower ice mold 2 are disassembled, so that the prepared ice blocks can be obtained.

After the liquid is frozen and formed, the step of enabling the expansion ball 32 to be in a contraction state specifically comprises the following steps: after the inflation valve is opened and hot air is filled into the expansion ball 32 through the inflation tube 31 to separate the expansion ball 32 from the ice blocks, the hot air in the expansion ball 32 is discharged to enable the expansion ball 32 to be in a contracted state, so that the expansion ball 32 can be taken out of the ice making cavity through the material inlet 12.

In summary, the inflation plug 3 in the ice-making mold 100 of the present invention includes the expansion ball 32 capable of switching between the expansion state and the contraction state, and the expansion ball 32 can enter/exit the ice-making cavity from the material inlet 12 when the expansion ball 32 is in the contraction state; after the inflation plug 3 is mounted on the ice mold 1 and the expansion ball 32 in the ice making cavity is in an expanded state, the liquid in the ice making cavity is filled between the expansion ball 32 and the ice making cavity, so that on one hand, hollow ice blocks can be frozen and formed, and meanwhile, some meaningful things such as fonts, fluorescent objects and the like can be placed in the ice making cavity as required; on the other hand, since the gap between the expansion ball 32 and the ice making chamber is small, the thickness of the made ice blocks is thin, thereby accelerating the ice making efficiency.

It should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments can also be combined appropriately to form other embodiments understood by those skilled in the art.

The above-listed detailed description is only a specific description of a possible embodiment of the present invention, and they are not intended to limit the scope of the present invention, and equivalent embodiments or modifications made without departing from the technical spirit of the present invention should be included in the scope of the present invention.

Claims

1. An ice-making mold characterized in that: the ice-making mold includes:

the ice making device comprises an ice making die and a control module, wherein the ice making die is provided with at least one first ice making grid, and the first ice making grid is provided with a feeding port penetrating through the first ice making grid;

the lower ice mold is provided with second ice making grids which correspond to the first ice making grids one by one, and after the upper ice mold is buckled with the lower ice mold, the first ice making grids and the second ice making grids corresponding to the first ice making grids are enclosed to form an ice making cavity for making ice;

the inflation plug comprises an inflation tube matched with the shape of the feeding port, an expansion ball connected to one end of the inflation tube and an inflation valve used for controlling the on-off of the inflation tube, the expansion ball can be switched between an expansion state and a contraction state, and the expansion ball can enter/exit the ice making cavity from the feeding port when the expansion ball is in the contraction state; the inflation plug further comprises a positioning block connected to the inflation tube, so that after the inflation plug is mounted on the ice loading die, the expansion ball is located in the middle of the ice making cavity.

2. An ice-making mold as set forth in claim 1, wherein: the ice making mould also comprises a water injection pipe communicated with a water source; the first ice cube tray is provided with a through hole, and one end of the water injection pipe, which is far away from the water source, is connected to the through hole.

3. An ice-making mold as set forth in claim 1, wherein: the ice making mould also comprises a water injection pipe communicated with a water source; the water injection pipe is far away from the one end of water source with the pan feeding mouth can dismantle and be connected.

4. An ice-making mold as set forth in claim 1, wherein: and a bulge is convexly arranged at the position, close to the feeding port, of the first ice cube tray, and a buffer cavity communicated with the first ice cube tray is arranged in the bulge.

5. An ice-making mold as set forth in claim 1, wherein: the upper ice mold and the lower ice mold are made of soft materials.

6. An ice-making mold according to any one of claims 1 to 5, wherein: the first ice making grids are formed in a concave mode from one side, facing the lower ice mold, of the upper ice mold to the direction far away from the lower ice mold; the second ice cube tray is formed by sinking from one side of the lower ice mold facing the upper ice mold to a direction far away from the upper ice mold.

7. An ice-making mold as set forth in claim 6, wherein: the first ice cube tray and the second ice cube tray are both hemispherical.

8. A method of making ice, comprising: the ice making method includes the steps of:

providing an ice-making mold according to claim 1;

buckling an upper ice mold and a lower ice mold to form an ice making cavity;

injecting a preset amount of liquid into the ice making cavity;

9. An ice making method as claimed in claim 8, wherein: after the liquid is frozen and formed, the method for making the expansion ball in the contraction state specifically comprises the following steps: and opening an inflation valve, inflating hot air into the expansion ball through the inflation tube to separate the expansion ball from the ice blocks, and discharging the hot air in the expansion ball to enable the expansion ball to be in a contraction state.