CN111829231A - Ice making system and refrigeration equipment - Google Patents

Abstract

The invention relates to the field of ice making, and provides an ice making system and refrigeration equipment, wherein the ice making system comprises an ice making assembly, the ice making assembly comprises an ice making grid, a water outlet mechanism for supplying water to the ice making grid, a water collecting tank positioned below the ice making grid, and a water retaining and guiding structure, the water retaining and guiding structure comprises a water retaining plate and a water guiding plate, and the water retaining plate is positioned below the water outlet mechanism and used for guiding condensed water falling from the water outlet mechanism to the water guiding plate; the water diversion plate inclines towards the water collecting tank and extends to the notch of the water collecting tank, and is used for leading condensed water on the water baffle into the water collecting tank and blocking flowing water splashing out of the water collecting tank during ice making. The invention can solve the problems of condensation water and water splashing outwards during ice making.

Description

Ice making system and refrigeration equipment

Technical Field

The invention relates to the technical field of ice making, in particular to an ice making system and a refrigerating device.

Background

The existing ice making principle is that water is injected into an ice making grid through a water pipe, then the ice making grid is refrigerated through an evaporator and/or air cooling, the water in the ice making grid is slowly condensed into ice blocks, and the ice blocks are stored in an ice storage box after being deiced.

However, since the temperature in the ice making system is lower than 0 ℃ during the ice making process, condensed water drops easily drop on internal components of the ice making system, such as the side wall and the bottom of the water separator, in the ice storage box, and water is easily splashed outwards due to the pressure and impact force of water during the water injection into the ice making grid and drops in the ice storage box; affecting the quality of the ice cubes.

Disclosure of Invention

Technical problem to be solved

The present invention is directed to solving at least one of the problems of the prior art or the related art.

The invention aims to provide an ice making system and refrigeration equipment to solve the problems of condensed water and water splashing outwards during ice making.

(II) technical scheme

In order to solve the above technical problem, an embodiment of the present invention provides an ice making system, including an ice making assembly and an ice storage box located below the ice making assembly, where the ice making assembly includes an ice making cell, a water outlet mechanism for supplying water to the ice making cell, and a water collecting tank located below the ice making cell, and the ice making system further includes a water retaining and guiding structure, where the water retaining and guiding structure includes:

the water baffle is positioned below the water outlet mechanism;

the water diversion plate is inclined towards the water collection tank and extends to the notch of the water collection tank, and is used for blocking running water splashed out of the water collection tank during ice making;

the condensed water falling down by the water outlet mechanism is guided to the water diversion plate by the water baffle and is collected in the water collection tank.

In the embodiment of the invention, the water retaining and guiding structure further comprises a rotating shaft, the rotating shaft is respectively connected with the water retaining plate and the water guiding plate, and the rotating shaft rotates to drive the water guiding plate to rotate so as to open the ice falling channel between the ice making grid and the ice storage box.

In the embodiment of the invention, the water retaining and water diversion structure further comprises an ice guide tooth, the ice guide tooth is arranged between the water retaining plate and the water diversion plate, and the rotating shaft rotates to drive the ice guide tooth to rotate so as to push ice blocks to fall into the ice storage box along the ice falling channel.

In the embodiment of the invention, the ice guide teeth incline towards the water flowing surface of the ice making grid, and the top ends of the ice guide teeth are close to the water inlet of the ice making grid.

In the embodiment of the invention, the ice guiding teeth gradually become smaller from the rotating shaft to the outside along the length direction to form a tip.

In the embodiment of the invention, the upper end of the ice storage box is provided with an ice falling port, the water collecting tank is arranged above the side of the ice falling port, and the ice falling channel is formed between the water outlet of the ice making grid and the ice falling port; the rotating shaft drives the water diversion plate to rotate to the upper side of the ice falling channel side for ice diversion.

In the embodiment of the invention, the water baffle and the water diversion plate respectively extend outwards along the circumferential direction of the rotating shaft.

In an embodiment of the present invention, the ice making system further includes a driving rotation mechanism, and the driving rotation mechanism is connected to the rotation shaft.

In the embodiment of the invention, two ends of the water baffle and the water diversion plate are respectively provided with a reinforcing rib connected with the rotating shaft.

In the embodiment of the invention, the axial direction of the rotating shaft is consistent with the length direction of the water collecting tank.

In the embodiment of the invention, the ice cube tray comprises a plurality of ice tray units arranged side by side, a plurality of ice guide teeth are arranged at intervals along the axial direction of the rotating shaft, and the plurality of ice guide teeth correspond to the plurality of ice tray units one to one.

In the embodiment of the invention, the ice cube tray is arranged downwards in an inclined manner, and the water outlet of the ice cube tray extends to the notch of the water collecting groove; the lower end of the water diversion plate extends to a position between the water outlet of the ice making grid and the notch of the water collecting groove.

In the embodiment of the invention, the water outlet mechanism comprises a water distributor, and the water distributor supplies water to each ice tray unit through water distribution branch pipes which correspond to the ice tray units one by one;

the water baffle extends from the bottom of the water separator to the outside of the side wall of the water separator;

the water collecting tank is connected to the water tank through a water discharging pipe, a water pump is arranged on the water discharging pipe, and the water separator is connected with the water tank.

The embodiment of the invention also provides refrigeration equipment which comprises the ice making system in the technical scheme.

(III) advantageous effects

Compared with the prior art, the invention has the following advantages:

according to the ice making system and the refrigeration equipment provided by the embodiment of the invention, a water retaining and diversion structure is arranged on the basis of the existing ice making system, and comprises a water retaining plate and a water diversion plate, wherein the water retaining plate extends towards the lower part of a water outlet mechanism and is used for shielding condensed water which is dropped from the bottom and the side wall of the water outlet mechanism due to condensed water and guiding the water diversion plate; the water diversion plate inclines towards the water collection groove and extends to the notch of the water collection groove, is used for leading condensed water on the water baffle into the water collection groove for collection, and is used for blocking running water which splashes out of the water collection groove when the ice making grids flow water towards the water collection groove during ice making, so that the problems of the condensed water and the splashed water during ice making are effectively solved.

In addition, when the ice is removed, the rotating shaft rotates to drive the water diversion plate to rotate so as to open the ice falling channel between the ice making grid and the ice storage box, and the water diversion plate is used as a shielding part for the ice blocks to fall out of the ice falling channel, so that the ice blocks can be guided to fall into the ice storage box accurately.

Drawings

FIG. 1 is an exploded view of an ice making system according to an embodiment of the present invention;

FIG. 2 is a front view of an ice making system according to an embodiment of the present invention;

fig. 3 is a sectional view A-A in fig. 2 when the water retaining and diversion structure is at an initial position;

FIG. 4 is a sectional view of A-A in FIG. 2 after the water retaining and diverting structure is rotated;

FIG. 5 is a perspective view of a water retaining and diverting structure in an ice making system according to an embodiment of the invention;

FIG. 6 is a top view of a water retaining and diverting structure in an ice making system according to an embodiment of the present invention;

FIG. 7 is a front view of a water retaining and diverting structure in an ice making system according to an embodiment of the present invention;

FIG. 8 is a cross-sectional view B-B of FIG. 7;

FIG. 9 is a side view of a water retaining and diverting structure in an ice making system according to an embodiment of the present invention;

in the figure, 1: a water separator; 2: an ice making grid; 3: an evaporator; 4: heating wires; 5: a water retaining and diversion structure; 51: a rotating shaft; 52: a water baffle; 53: a water diversion plate; 54: ice guiding teeth; 55: reinforcing ribs; 6: a water collection tank; 7: an ice bank; 71: an ice falling port; 8: an ice discharging mechanism; 9: a drive motor; 10: a water valve; 11: a water level detector; 12: a water tank; 13: a water pump; 14: a water discharge pipe; 15: an ice discharging motor; 16: a small door; 17: a housing.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as appropriate by those of ordinary skill in the art.

In addition, in the description of the present invention, "plurality", and "plural group" mean two or more unless otherwise specified.

As shown in fig. 1 to 4, an embodiment of the present invention provides an ice making system, which includes an ice making assembly and an ice storage bin 7 located below the ice making assembly for storing ice cubes, wherein the ice making assembly may include an ice making cell 2, a water outlet mechanism for supplying water to the ice making cell 2, and a water collecting tank 6 located below the ice making cell 2 for collecting excess water flowing out during ice making process of the ice making cell 2.

The applicant finds that in the present embodiment, the ice making system further includes a water retaining and guiding structure 5, as shown in fig. 5 to 8, the water retaining and guiding structure 5 includes a water retaining plate 52 and a water guiding plate 53 connected to the water retaining plate, the water retaining plate 52 extends toward the lower side of the water outlet mechanism, that is, the water retaining plate 52 is located below the water outlet mechanism, and an orthographic area of the water retaining plate 52 toward the water outlet mechanism is greater than or equal to an area of the water outlet mechanism, so as to completely block condensed water dropping from the water outlet mechanism due to condensation caused by a low temperature inside the ice making system, including condensed water dropping from the bottom and the side wall of the water outlet mechanism, and of course, other parts inside the ice making system may also have condensed water, such as the ice making cells 2, and the condensed water of the ice making cells 2 directly drops into the water collecting tank 6 for collection. Specifically, the water guide plate 53 is inclined toward the water collection groove 6 and extends into a notch of the water collection groove 6, so as to be used for guiding condensed water on the water baffle 52 into the water collection groove 6 for collection, and on the other hand, for blocking running water splashed out of the water collection groove 6 when the water flows from the ice making cells 2 to the water collection groove 6 during ice making.

In this embodiment, manger plate diversion structure 5 still includes pivot 51, and pivot 51 is used for driving manger plate 52 and diversion board 53 simultaneously and rotates, and manger plate 52, diversion board 53 can be followed respectively the outside extension of circumference of pivot 51, also can be that manger plate 52 and diversion board 53 are connected together, and the both ends after manger plate 52 and diversion board 53 are connected are located to the pivot, and concrete connection can be for, and manger plate 52 and diversion board 53 extend to the both sides of pivot 51, can be the contained angle setting between manger plate 52 and the diversion board 53, and specific angle does not do the injectly, and pivot 51, diversion board 53 and manger plate 52 can integrated into one piece to guarantee sufficient joint strength.

It should be noted here that the positional relationship between the water baffle 52 and the water guide plate 53 is only required to ensure that water on the water baffle 52 can smoothly flow to the water guide plate 53, so as to recycle the cold energy, prevent condensed water from dropping into the ice storage box 7 to affect the quality and precision of ice cubes, prevent ice making water from splashing out of the water collection tank 6 when the ice making cells 2 flow to the water collection tank 6 during ice making, prevent water from splashing into the ice storage box 7 to affect the quality and precision of ice cubes, provide the cold energy to the ice making cells 2 by using the evaporator 3 and/or air cooling to make ice cubes, heat the ice making cells 2 by using the heating pipe or the heating wire 4 after the ice making is completed to make the ice cubes separate from the ice making cells 2, and ensure that the ice is smoothly dropped.

In this embodiment, during ice shedding, the rotating shaft 51 rotates to drive the water diversion plate 53 to rotate so as to open the ice falling channel between the ice making cells 2 and the ice storage box 7, ice cubes enter the ice storage box 7 from the ice falling channel, and the water diversion plate 53 is used as a shield for the ice cubes to fall out of the ice falling channel, so that the ice cubes can be guided to fall into the ice storage box 7 completely and accurately.

In the embodiment of the present invention, as shown in fig. 5 to 9, the water blocking and guiding structure 5 further includes an ice guiding tooth 54 disposed between the water blocking plate 52 and the water guiding plate 53, when ice is removed, the rotating shaft 51 rotates to drive the water guiding plate 53 to rotate, and at the same time, the ice guiding tooth 54 is driven to rotate to push ice blocks to fall into the ice storage box 7 along the ice falling channel, and thrust can be applied to ice blocks through the ice guiding tooth 54, so that on one hand, ice blocks can be helped to quickly separate from the ice making cells 2, thereby saving ice removing time, and on the other hand, thrust in a designated direction can be given to ice blocks, so as to increase the order of ice blocks falling. The rotation of the rotating shaft 51 is driven by a driving rotating mechanism, the driving rotating mechanism can be a driving motor 9, an output shaft of the driving motor 9 is connected with a driving interface of the rotating shaft 51, and the rotating shaft 51 is driven to synchronously rotate by the rotation of the driving motor 9.

In the embodiment of the invention, as shown in fig. 3, the ice guide teeth 54 are inclined towards the water flowing surface of the ice making cell 2, the top ends of the ice guide teeth 54 are close to the water inlet of the ice making cell 2, the ice guide teeth 54 do not affect normal ice making when the ice making cell 2 makes ice normally, when ice is required to be removed, the heating pipe on the back of the ice making cell 2 heats and removes ice, when the adhesive force between ice cubes and the ice making cell 2 is small, as shown in fig. 4, the rotating shaft 51 rotates to drive the ice guide teeth 54 to rotate, and a pushing force is applied to the water outlet of the ice making cell 2 from the water inlet of the ice making cell 2, namely the upper end of the ice cubes, so that the energy for heating can be saved, the melting surface of the ice cubes is small, the ice cubes have good quality, and the ice cubes can smoothly fall into the ice storage box 7 along the water outlet of.

In the embodiment of the present invention, as shown in fig. 8 and 9, the ice guide teeth 54 are tapered outward from the rotational shaft 51 to form tips so as to apply a pushing force to the ice cubes and to avoid interference with the ice cube tray 2 during the rotation.

In the embodiment of the invention, as shown in fig. 3, the upper end of the ice storage box 7 is provided with an ice falling port 71, the upper end of the ice storage box 7 can be opened to serve as the ice falling port 71, the water collection tank 6 is arranged above the side of the ice falling port 71, the water outlet of the ice making grid 2 is also an ice outlet, excessive water flows out of the water outlet into the water collection tank 6 in the ice making process and is collected for reuse, and the distance between the ice making grid 2 and the water collection tank 6 is smaller than the length or width of ice blocks, so as to ensure that the ice blocks do not fall into the water collection tank 6 after falling off.

Further, the ice falling channel is formed between the water outlet of the ice making grid 2 and the ice falling opening 71, and after ice making is finished, ice blocks slide out of the notch from the ice outlet and fall into the ice storage box 7 from the ice falling channel; as shown in fig. 4, the water diversion plate 53 rotates to the upper side of the ice dropping passage for ice diversion at the time of ice shedding; in the prior art, the ice cubes fall to the ice falling channel, because there is not any restriction, the ice cubes can fall at will, pop out the ice storage box 7 even, this embodiment is through setting up the diversion board 53, the diversion board 53 plays the ice making water's that shelters from the ice making check 2 spill catch basin 6 effect during ice making, when the ice detachment, the diversion board 53 rotates together under the drive of pivot 51, form the sheltering from of the ice falling channel outside, when the ice cubes fall to the ice falling channel, the diversion board 53 plays and prevents that the ice cubes from falling to the effect outside the ice storage box 7, can guide the ice cubes to fall into the ice storage box 7 in an orderly manner.

In the embodiment of the present invention, as shown in fig. 5 and 6, two ends of the water baffle 52 and the water diversion plate 53 are respectively provided with a reinforcing rib 55 connected with the rotating shaft 51 to enhance the structural strength of the water baffle 52 and the water diversion plate 53, and the reinforcing ribs 55 can also be arranged on the water baffle 52 and the water diversion plate 53 and can be specifically arranged according to requirements.

In the embodiment of the invention, the axial direction of the rotating shaft 51 is consistent with the length direction of the water collecting tank 6 or the water separator, so as to ensure that when the rotating shaft 51 rotates, the rotating direction of the water baffle 52 and the water diversion plate 53 rotates relative to the water collecting tank 6 and the water outlet mechanism, the length direction of the water baffle 52 and the water diversion plate 53 is arranged along the axial direction of the rotating shaft 51, the length of the water baffle 52 is consistent with the length of the water outlet mechanism, and the length of the water diversion plate 53 is consistent with the length of the water collecting tank 6, so as to form a sufficient shielding effect.

In the embodiment of the present invention, as shown in fig. 1, the ice making cell 2 includes a plurality of ice cell units arranged side by side, and can make a plurality of ice cubes at the same time, so as to improve ice making efficiency, a plurality of ice guiding teeth 54 are arranged along the axial direction of the rotating shaft 51 at intervals, the plurality of ice guiding teeth 54 can be arranged on the rotating shaft 51, or can be arranged at the connection between the water baffle 52 and the water guide plate 53, the plurality of ice guiding teeth 54 correspond to the plurality of ice cell units one by one, and are used for rotating the plurality of ice guiding teeth 54 at the same time when ice is removed, so as to push the ice cubes in the corresponding ice cell units out of the ice cell units.

In the embodiment of the invention, as shown in fig. 1, 3 and 4, the ice making tray 2 is arranged obliquely downwards, so that redundant water is conveniently discharged and ice is conveniently removed, a water outlet of the ice making tray 2 extends to a notch of the water collecting tank 6, and preferably a small section extends downwards along the notch, so that the probability that water flowing from the water outlet splashes out of the notch is reduced; the lower end of the water diversion plate 53 extends to the position between the water outlet of the ice making grid 2 and the notch of the water collection tank 6, so that flowing water at the water outlet of the ice making grid 2 is shielded back into the water collection tank 6, and splashed water is prevented from falling into the ice storage box 7.

In the embodiment of the invention, the water outlet mechanism comprises a water distributor 1, the water distributor 1 supplies water to each ice grid unit through water distribution branch pipes corresponding to the ice grid units one by one, and the water distributor 1 can uniformly supply water to each ice grid unit, so that the consistency of ice cube forming in each ice grid unit is realized.

In the embodiment of the present invention, as shown in fig. 3, the water baffle 52 extends from the bottom of the water separator 1 to the outside of the sidewall of the water separator 1, so as to fully shield the condensed water at the bottom and the sidewall of the water separator 1, and in order to avoid interference between the water baffle 52 and the bottom of the water separator 1 during rotation, an interference prevention space needs to be left between the water baffle 52 and the bottom of the water separator 1.

In the embodiment of the invention, as shown in fig. 1, an ice discharging mechanism 8 is arranged in the ice storage box 7, the ice discharging mechanism 8 is connected with an ice discharging motor 15, and the ice discharging motor 15 drives the ice discharging mechanism 8 to rotate so as to realize automatic ice discharging.

Specifically, go out ice mechanism 8 and can be spiral pivot 51, and when spiral pivot 51 rotated, the piece of ice removed along the helicla flute of spiral pivot 51, conveniently goes out ice, water catch bowl 6 is connected to water tank 12 through drain pipe 14, be equipped with water pump 13 on the drain pipe 14, make the water in the water catch bowl 6 discharge into water tank 12 through drain pipe 14 through water pump 13 work, carry out the cyclic utilization of ice making water.

Specifically, the water outlet mechanism is connected with the water tank 12, water in the water tank 12 and water in the collected water collecting tank 6 are supplied to the ice making grid 2 through the water outlet mechanism to make ice, a water valve 10 is arranged on a connecting pipeline between the water segregator 1 and the water tank 12, the water valve 10 is switched on and off according to ice making requirements, and a water level detector 11 is arranged in the water tank 12 and used for detecting the height of the water level and informing the outside to supply water to the water tank 12 when the water level is reduced to a set value. The ice making system is arranged in a shell 17, a small door 16 is arranged on the shell 17, and the internal operation condition of the ice making system can be observed through the small door 16.

The embodiment of the invention also provides a refrigeration device, which includes but is not limited to a refrigerator, and comprises the ice making system in the technical scheme, as shown in fig. 1, by arranging the ice making system, the problems of condensation water generated by internal components of the ice making system and water splashing outwards during ice making can be solved, and ice blocks can be ensured to accurately fall into the ice storage box 7; convenient to use, the ice-cube that makes is of high quality, and the precision is high.

According to the embodiment, the problems of condensation water generated by internal components of the ice making system and water splashing outwards during ice making can be solved, and ice blocks can be guaranteed to accurately fall in the ice storage box.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (14)

1. An ice making system, includes the ice making subassembly, the ice making subassembly includes the ice cube tray, to the play water mechanism of ice cube tray water supply and be located the catch basin of ice cube tray below, its characterized in that still includes:

manger plate diversion structure, manger plate diversion structure includes:

the water baffle is positioned below the water outlet mechanism;

the water diversion plate is inclined towards the water collection tank and extends to the notch of the water collection tank, and is used for blocking running water which splashes out of the water collection tank during ice making;

the condensed water falling down by the water outlet mechanism is guided to the water diversion plate by the water baffle and is collected in the water collection tank.

2. The ice making system of claim 1, further comprising an ice bank located below the ice making assembly;

the water retaining and water diversion structure further comprises a rotating shaft, and the rotating shaft is respectively connected with the water retaining plate and the water diversion plate;

the rotating shaft rotates to drive the water diversion plate to rotate so as to open the ice falling channel between the ice making grid and the ice storage box.

3. The ice making system of claim 2, wherein the water retaining and diverting structure further comprises an ice guide tooth disposed between the water retaining plate and the water diverting plate, and the rotation of the shaft drives the ice guide tooth to rotate so as to push the ice cubes to fall into the ice storage bin along the ice falling channel.

4. The ice making system of claim 3, wherein the ice guide teeth are inclined toward the water surface of the ice cube tray, and the top ends of the ice guide teeth are close to the water inlet of the ice cube tray.

5. The ice making system of claim 3, wherein said ice guide teeth taper longitudinally outward from said shaft to form a point.

6. The ice making system of claim 3, wherein the ice cube tray comprises a plurality of ice tray units arranged side by side, a plurality of ice guiding teeth are arranged along the axial direction of the rotating shaft at intervals, and the plurality of ice guiding teeth correspond to the plurality of ice tray units one to one.

7. The ice making system of claim 2, wherein the ice bank has an ice dropping opening at an upper end thereof, the water collecting tank is disposed above the ice dropping opening, and the ice dropping passage is formed between the water outlet of the ice cube tray and the ice dropping opening; the rotating shaft drives the water diversion plate to rotate to the upper side of the ice falling channel for ice diversion.

8. The ice making system of claim 2, wherein the water guard and the water guide plate extend outward in a circumferential direction of the rotation shaft, respectively.

9. The ice making system of claim 2, further comprising a drive mechanism coupled to the shaft.

10. The ice making system as claimed in claim 2, wherein both ends of the water guard and the water guide plate are respectively provided with a reinforcing rib connected to the rotation shaft.

11. The ice making system of claim 2, wherein an axial direction of the rotation shaft coincides with a length direction of the water collection tank.

12. An ice making system as claimed in any one of claims 1 to 11, wherein the ice cube tray is arranged obliquely downwards, and the water outlet of the ice cube tray extends to the slot of the water collection trough; the lower end of the water diversion plate extends to a position between the water outlet of the ice making grid and the notch of the water collecting groove.

13. An ice making system as claimed in any one of claims 1 to 11, wherein the water outlet means comprises a water separator supplying water to each of the ice grid cells via water separating branches in one-to-one correspondence with the ice grid cells;

the water baffle extends from the bottom of the water separator to the outside of the side wall of the water separator;

the water collecting tank is connected to the water tank through a water discharging pipe, a water pump is arranged on the water discharging pipe, and the water separator is connected with the water tank.

14. A refrigeration appliance comprising the ice making system of any of claims 1-13.

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