CN218033859U - Novel ice maker capable of efficiently deicing - Google Patents

Abstract

The utility model relates to a novel ice machine that can high-efficient deicing, its technical scheme main points are: the method comprises the following steps: the ice making machine comprises a box body, an ice making mechanism for making ice cubes, an ice basket for receiving the ice cubes made by the ice making mechanism, a water storage mechanism for receiving water output by the ice making mechanism, a water flow partition plate for respectively guiding the ice cubes and the water, and a controller; the ice making mechanism, the water storage mechanism and the controller are all arranged in the box body; the ice basket is detachably arranged in the box body and is positioned above the water storage mechanism; the water flow partition plate is arranged in the box body and is positioned on one side of the ice basket; one end of the water flow partition plate is communicated with the output end of the ice making mechanism, and the other end of the water flow partition plate is respectively communicated with the ice basket and the water storage mechanism; the controller is electrically connected with the ice making mechanism and the water storage mechanism respectively; the present application has an advantage that the deicing step can be simplified to improve deicing efficiency.

Description

Novel ice maker capable of efficiently deicing

Technical Field

The utility model relates to an ice machine equipment technical field, more specifically say, it relates to a novel ice machine that can high-efficient deicing.

Background

The ice maker is a refrigeration mechanical device which cools water through an evaporator by a refrigeration system refrigerant to generate ice, and is widely applied to various occasions such as restaurants, hotels, night clubs, hospitals, schools, laboratories, scientific research institutes and the like.

However, in the conventional ice making machine, the water box is driven to turn over by the turning motor during ice shedding, water is drained firstly, ice blocks fall into a space for temporary storage, and then the ice blocks are pushed out of the space and fall into the ice storage chamber by the pushing shovel on the turning water box.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims to provide a novel ice machine that can high-efficiently de-ice has the advantage that can simplify the step of de-icing in order to improve de-icing efficiency.

The above technical purpose of the present invention can be achieved by the following technical solutions: a novel ice maker capable of efficiently removing ice, comprising: the ice making machine comprises a box body, an ice making mechanism for making ice cubes, an ice basket for receiving the ice cubes made by the ice making mechanism, a water storage mechanism for receiving water output by the ice making mechanism, a water flow partition plate for respectively guiding the ice cubes and the water, and a controller; the ice making mechanism, the water storage mechanism and the controller are all arranged in the box body; the ice basket is detachably arranged in the box body and is positioned above the water storage mechanism; the water flow partition plate is arranged in the box body and is positioned on one side of the ice basket; one end of the water flow partition plate is communicated with the output end of the ice making mechanism, and the other end of the water flow partition plate is respectively communicated with the ice basket and the water storage mechanism; the controller is respectively electrically connected with the ice making mechanism and the water storage mechanism.

Optionally, an inclined guide plate capable of preventing ice blocks from being stuck when falling off is arranged right below the ice making mechanism; the output end of the inclined guide plate is abutted to the input end of the water flow partition plate.

Optionally, a plurality of reinforcing ribs for guiding the ice cubes and the water respectively are arranged on the water flow partition plate; first distances are arranged between the reinforcing ribs and the ice basket.

Optionally, an arc portion capable of buffering the ice when the ice falls off is arranged at the end of the reinforcing rib.

Optionally, the ice making mechanism comprises: the ice making machine comprises a turnover water box for receiving an external input water source, an ice maker for making water in the turnover water box into ice blocks, and a turnover motor for driving the turnover water box to rotate; the turnover water box is rotatably arranged in the box body; the overturning motor is arranged on the box body, and the output end of the overturning motor is fixedly connected with the overturning water box; the ice maker is arranged on the box body and is positioned at the inner side of the turnover water box; the ice maker and the turnover motor are both electrically connected with the controller.

Optionally, the water storage mechanism comprises: the water level sensor is used for sensing the water level in the water storage tank; the water storage tank is arranged at the bottom of the box body and is positioned below the ice basket; the water level sensor is arranged on the inner wall of the water storage tank; the water level sensor is electrically connected with the controller.

Optionally, the water level sensor is a water level float switch.

Optionally, a foaming layer for heat preservation and insulation is further arranged on the inner wall of the box body.

To sum up, the utility model discloses following beneficial effect has:

compared with a traditional ice maker, the ice maker has the advantages that the pre-storage space and the push plate required by ice blocks falling are reduced, the water box is turned over when ice is removed under the condition that the turning motor and the water box are not changed, water in the water box is directly poured at the inclined guide plate, and the water flows down to the water storage tank along the slope and the water flow partition plate; when the ice-cube drops, roll along the slope and fall in the ice basket, ice basket and rivers baffle junction separate the water stream with many strengthening ribs and pass through, avoid rivers to influence the ice-cube in the ice basket, when reaching rivers and ice-cube and separately the effect that drops, also simplified the step of deicing to the efficiency of deicing has been improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged partial schematic view of FIG. 2;

fig. 4 is a schematic top view of the present invention.

In the figure: 1. a box body; 2. an ice making mechanism; 21. turning over the water box; 22. an ice maker; 23. turning over a motor; 3. an ice basket; 4. a water storage mechanism; 41. a water storage tank; 42. a water level sensor; 5. a water flow baffle; 6. a controller; 7. an inclined guide plate; 8. an arc-shaped portion; 9. a first distance.

Detailed Description

In order to make the objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail with reference to the accompanying drawings. Several embodiments of the invention are presented in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; 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 according to specific situations by those of ordinary skill in the art. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

In the present application, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation of the first and second features not being in direct contact, but being in contact with another feature between them. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature. The terms "vertical," "horizontal," "left," "right," "up," "down," and similar expressions are used for illustrative purposes only and do not indicate or imply that the device or element so referred to must be oriented, constructed and operated in a specific orientation and therefore should not be construed as limiting the invention.

The present invention will be described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1, fig. 2 and fig. 4, the utility model provides a novel ice maker capable of efficiently deicing, comprising: the ice making machine comprises a box body 1, an ice making mechanism 2 for making ice cubes, an ice basket 3 for receiving the ice cubes made by the ice making mechanism 2, a water storage mechanism 4 for receiving water output by the ice making mechanism 2, a water flow partition plate 5 for guiding the ice cubes and the water respectively, and a controller 6; the ice making mechanism 2, the water storage mechanism 4 and the controller 6 are all arranged in the box body 1; the ice basket 3 is detachably arranged in the box body 1 and is positioned above the water storage mechanism 4; the water flow partition plate 5 is arranged in the box body 1 and is positioned on one side of the ice basket 3; one end of the water flow partition plate 5 is communicated with the output end of the ice making mechanism 2, and the other end of the water flow partition plate 5 is respectively communicated with the ice basket 3 and the water storage mechanism 4; the controller 6 is electrically connected to the ice making mechanism 2 and the water storage mechanism 4, respectively.

In this embodiment, the controller may be an MCU, a PLC, a microprocessor, or a 51/52 series single chip microcomputer; the ice making mechanism 2, the water storage mechanism 4 and the controller 6 are all arranged in the box body 1, and the controller 6 can be used for controlling the working states of the ice making mechanism 2 and the water storage mechanism 4;

ice making mechanism 2 is used for inserting outside water source and making the ice-cube, retaining mechanism 4 is used for accepting the rivers of ice making mechanism 2 output, ice basket 3 is located between ice making mechanism 2 and the retaining mechanism 4, rivers baffle 5 sets up the side at ice basket 3 (see fig. 2), when ice making mechanism 2 exports ice-cube and water simultaneously, rivers can directly get into in the retaining mechanism 4 along rivers baffle 5, the ice-cube rolls down in ice basket 3 under the effect of stopping of rivers baffle 5, thereby reach the effect that ice-cube and water fall respectively after being exported, and required prestore space and push pedal when having saved the ice-cube and droing, when reaching rivers and ice-cube separately the effect of droing, the deicing step has also been simplified, the deicing efficiency is improved.

Further, as shown in fig. 3, a slant guide plate 7 which can prevent the ice from being stuck when the ice is dropped is provided right below the ice making mechanism 2; the output end of the inclined guide plate 7 is abutted with the input end of the water flow partition plate 5.

In this embodiment, the inclined guide plate 7 is disposed right below the ice making mechanism 2, and when the water and ice cubes output by the ice making mechanism 2 fall down, the water and ice cubes firstly pass through the inclined guide plate 7 and then pass through the water flow partition plate 5, so that the inclined guide plate 7 can prevent the ice cubes from being stuck when falling off.

Furthermore, a plurality of reinforcing ribs for guiding the ice cubes and the water respectively are arranged on the water flow partition plate 5; first distances 9 are arranged between the reinforcing ribs and the ice basket 3.

In this embodiment, the water flow partition plate 5 is provided with a plurality of reinforcing ribs, the spacing distances between the plurality of reinforcing ribs are equal, and the size of the spacing distance is smaller than that of the ice block, so that the ice block cannot fall into the water storage mechanism 4 through the gaps of the reinforcing ribs in the falling process, and the separation effect is achieved;

in addition, all leave the clearance of certain distance between a plurality of strengthening ribs and the ice basket 3, this clearance can prevent that rivers from flowing through from the strengthening rib when contacting with ice basket 3 and flow into in the ice basket 3 to reach the effect of separately falling when ice-cube and rivers are exported, avoid rivers to influence the ice-cube in the ice basket 3.

Further, an arc-shaped part 8 which can play a buffering effect on the ice blocks when the ice blocks fall off is arranged at the end part of the reinforcing rib.

In the present embodiment, the end of the reinforcing rib is provided with an arc portion 8 (see fig. 3), and the arc portion 8 can make the ice falling more gentle (the ice is easily splashed when the ice falls by using the right-angle reinforcing rib), so as to prevent the ice from splashing.

Further, the ice making mechanism 2 includes: the water dispenser comprises a turnover water box 21 for receiving an external input water source, an ice maker 22 for making water in the turnover water box 21 into ice cubes, and a turnover motor 23 for driving the turnover water box 21 to rotate; the turnover water box 21 is rotatably arranged in the box body 1; the overturning motor 23 is installed on the box body 1, and the output end of the overturning motor 23 is fixedly connected with the overturning water box 21; the ice maker 22 is arranged on the box body 1 and is positioned at the inner side of the turnover water box 21; the ice maker 22 and the turnover motor 23 are electrically connected with the controller 6.

In this embodiment, the ice making mechanism 2 is composed of three parts, namely, a turnover water box 21, an ice maker 22 and a turnover motor 23, wherein the turnover water box 21 is used for receiving an externally input water source, the turnover motor 23 is used for driving the turnover water box 21 to rotate, the turnover water box 21 can form a cylindrical shape when rotating because the cross section of the turnover water box 21 is semicircular, the ice maker 22 is arranged in the turnover water box 21 and can condense water in the turnover water box 21 and make ice cubes, the controller 6 is electrically connected with the ice maker 22 and the turnover motor 23, and different working signals can be sent to the ice maker 22 and the turnover motor 23 when the equipment works;

when the equipment is used for water outlet, after the turnover water box 21 receives a water source, the controller 6 enables the turnover motor 23 to directly drive the turnover water box 21 to rotate, so that water flows into the water storage mechanism 4; when the equipment is used for ice discharging and water discharging, after the water source is received by the turnover water box 21, the controller 6 enables the ice maker 22 to work, firstly, water in the turnover water box 21 is made into ice blocks, after the ice blocks are made, the turnover motor 23 drives the turnover water box 21 to rotate, so that ice-water mixtures in the turnover water box 21 sequentially pass through the inclined guide plate 7 and the water flow partition plate 5 and then respectively fall into the ice basket 3 and the water storage mechanism 4, and water discharging and ice removing are completed.

Further, the water storage mechanism 4 includes: a water tank 41 and a water level sensor 42 for sensing the water level in the water tank 41; the water storage tank 41 is arranged at the bottom of the box body 1 and is positioned below the ice basket 3; the water level sensor 42 is installed on the inner wall of the water storage tank 41; the water level sensor 42 is electrically connected to the controller 6.

In this embodiment, the water storage tank 41 is installed at the bottom of the tank body 1 for receiving the water output from the turn-over water box 21, and the water level sensor 42 is installed at the inner wall of the water storage tank 41 for sensing the water level inside the turn-over water box 21.

Further, the water level sensor 42 is a water level float switch.

In this embodiment, the water level sensor 42 is a water level float switch, which can sense the water level in the water storage tank 41 and send a corresponding water level signal to the controller 6, so that the controller 6 can obtain feedback of the water level in the water storage tank 41 when controlling the turning motor 23.

Furthermore, a foaming layer for heat preservation and heat insulation is arranged on the inner wall of the box body 1.

In this embodiment, the inner wall of the box body 1 is provided with a foaming layer, and the foaming layer can improve the heat preservation and insulation effects of the box body 1.

The utility model discloses a novel ice machine that can high-efficiently de-ice has the advantage that can simplify the deicing step in order to improve deicing efficiency.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A novel ice maker capable of efficiently deicing is characterized by comprising: the ice making machine comprises a box body, an ice making mechanism for making ice cubes, an ice basket for receiving the ice cubes made by the ice making mechanism, a water storage mechanism for receiving water output by the ice making mechanism, a water flow partition plate for respectively guiding the ice cubes and the water, and a controller;

the ice making mechanism, the water storage mechanism and the controller are all arranged in the box body; the ice basket is detachably arranged in the box body and is positioned above the water storage mechanism; the water flow partition plate is arranged in the box body and is positioned on one side of the ice basket; one end of the water flow partition plate is communicated with the output end of the ice making mechanism, and the other end of the water flow partition plate is respectively communicated with the ice basket and the water storage mechanism; the controller is respectively electrically connected with the ice making mechanism and the water storage mechanism.

2. The novel ice maker capable of efficiently deicing as claimed in claim 1, wherein an inclined guide plate capable of preventing the ice cubes from being stuck when falling off is provided directly below the ice making mechanism; the output end of the inclined guide plate is abutted to the input end of the water flow partition plate.

3. The novel ice maker capable of efficiently deicing as claimed in claim 2, wherein a plurality of reinforcing ribs for guiding the ice cubes and the water, respectively, are provided on said water flow partition plate; first distances are arranged between the reinforcing ribs and the ice basket.

4. The novel ice maker capable of efficiently deicing as claimed in claim 3, wherein an arc-shaped portion having a buffering effect on the ice cubes when they are released is provided at an end portion of said reinforcing rib.

5. The novel ice maker capable of efficiently deicing as claimed in claim 1, wherein said ice making mechanism comprises: the ice making machine comprises a turnover water box for receiving an external input water source, an ice maker for making water in the turnover water box into ice blocks and a turnover motor for driving the turnover water box to rotate;

the turnover water box is rotatably arranged in the box body; the overturning motor is arranged on the box body, and the output end of the overturning motor is fixedly connected with the overturning water box; the ice maker is arranged on the box body and is positioned at the inner side of the turnover water box; the ice maker and the turnover motor are both electrically connected with the controller.

6. The novel ice-making machine capable of efficiently deicing as claimed in claim 1, wherein said water storage mechanism comprises: the water level sensor is used for sensing the water level in the water storage tank;

the water storage tank is arranged at the bottom of the box body and is positioned below the ice basket; the water level sensor is arranged on the inner wall of the water storage tank; the water level sensor is electrically connected with the controller.

7. The novel ice maker capable of efficiently deicing as claimed in claim 6, wherein said water level sensor is a water level float switch.

8. The novel ice maker capable of efficiently deicing as claimed in claim 1, wherein a foaming layer for heat preservation and insulation is further provided on the inner wall of the box body.

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