CN211186869U - Ice making module of ice making water dispenser and ice making water dispenser - Google Patents

Abstract

The utility model discloses an ice making module of an ice making water dispenser and the ice making water dispenser, wherein, the ice making module of the ice making water dispenser comprises an inner container, a middle clapboard and an ice making box assembly, the middle clapboard is arranged in the inner container and divides the inner container into an ice receiving chamber and a water storage chamber which are arranged up and down along the vertical direction, and the middle clapboard is provided with a water leakage hole; the ice making box assembly is arranged in the ice receiving chamber of the inner container and used for making water into ice cubes and pouring the ice cubes onto the middle partition plate in an axial rotation mode, and the ice melting water flows into the water storage chamber through the water leakage holes. The utility model discloses the independent module setting of system ice water dispenser's system ice module for whole ice-storage and the volume greatly increased who stores ice water can satisfy user's a large amount of system ice demands, and be convenient for maintain, change and wash the inner structure of system ice module, and the commonality is high, and the model extension for the later stage has reduced the cost and has dropped into.

Description

Ice making module of ice making water dispenser and ice making water dispenser

Technical Field

The utility model relates to the technical field of household appliances, in particular to an ice making module of an ice making water dispenser and the ice making water dispenser.

Background

At present, as the quality of life demands of users increase, the demand of the household ice maker is increasing. Since the household ice maker is expensive and occupies a large space. Therefore, the ice making water dispenser combining the ice maker with the water dispenser is favored by more and more users. However, the ice storage warehouse of the existing household ice-making water dispenser is generally small, and the space utilization rate is poor; the cold quantity of ice blocks and the ice water in the ice storage warehouse can not be effectively utilized, and the waste is wasted. Meanwhile, as the related refrigeration components, the compressor and other system components are usually directly fused into the internal structure of the water dispenser, the universality is poor, and the maintenance and the replacement are inconvenient.

The above is only for the purpose of assisting understanding of the technical solution of the present invention, and does not represent an admission that the above is the prior art.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to an ice making module of an ice making water dispenser, which is used to solve one or more of the above technical problems.

In order to realize the purpose, the ice making module of the ice making water dispenser provided by the utility model comprises an inner container, a middle clapboard and an ice making box component;

the middle clapboard is arranged in the inner container and divides the inner container into an ice receiving chamber and a water storage chamber which are arranged up and down along the vertical direction, and the middle clapboard is provided with a water leakage hole;

the ice making box assembly is arranged in the ice receiving chamber of the inner container, is used for making water into ice cubes and pouring the ice cubes onto the middle partition plate in an axial rotation mode, and ice melting water flows into the water storage chamber through the water leakage holes.

In one embodiment, the ice making module of the ice making water dispenser further comprises a water pumping assembly, and the water pumping assembly is used for pumping water in the water storage chamber into the ice making box assembly.

In one embodiment, the ice making module of the ice making water dispenser further comprises a water stop sheet, and the water stop sheet is arranged in the water storage chamber and divides the water storage chamber into a first water storage chamber and a second water storage chamber;

the middle partition plate is provided with the water leakage holes corresponding to the first water storage chamber and the second water storage chamber;

the water pumping assembly is used for pumping water in the second water storage chamber into the ice making box assembly.

In one embodiment, the second water storage chamber is provided with a normal temperature water inlet.

In one embodiment, the ice making box assembly is correspondingly arranged right above the second water storage chamber in the ice receiving chamber.

In one embodiment, the ice box assembly has an ice discharge opening, and the inner container has an ice outlet and a first side wall facing the ice discharge opening;

the middle partition plate comprises an ice receiving part which is obliquely arranged from the ice making box assembly to the first side wall in a downward direction, an ice outlet channel is formed at the position, close to the first side wall, of the ice receiving part, and the ice outlet channel is communicated with the ice outlet.

In an embodiment, the center septum further comprises an ice blocking cover, the ice blocking cover is arranged above the ice outlet channel, and the ice blocking cover and the ice outlet channel enclose to form an ice outlet port.

In one embodiment, the middle partition plate further comprises a water collecting part connected with one end of the ice receiving part far away from the ice outlet channel, and the connecting end of the water collecting part and the ice receiving part is higher than one end of the water collecting part far away from the ice receiving part;

the ice making box assembly comprises an ice receiving box and a water receiving box which is rotatably arranged in the ice receiving box, the water collecting part is arranged corresponding to the ice making box assembly, the bottom wall surface of the ice receiving box is provided with an overflow hole, and the water collecting part is provided with the water leakage hole.

In one embodiment, the water collecting part is arranged adjacent to or attached to the bottom wall surface of the ice receiving box.

In one embodiment, the ice making box assembly further includes a motor, an evaporator erected on the water receiving box, and an ice poking plate connected to an ice discharging end of the water receiving box, an output shaft of the motor is connected to one end of the water receiving box to drive the water receiving box to rotate in the ice receiving box, and the water receiving box has a first state in which the water receiving box rotates to dump ice cubes into the ice receiving box and a second state in which the water receiving box rotates to drive the ice poking plate to poke out ice cubes in the ice receiving box to the ice receiving part.

The utility model also provides an ice making water dispenser, which comprises a shell, an ice making module of the ice making water dispenser and a compressor, wherein the ice making module of the ice making water dispenser comprises an inner container, a middle clapboard and an ice making box assembly;

the middle clapboard is arranged in the inner container and divides the inner container into an ice receiving chamber and a water storage chamber which are arranged up and down along the vertical direction, and the middle clapboard is provided with a water leakage hole;

the ice making box assembly is arranged in the ice receiving chamber of the inner container and is used for making water into ice blocks and pouring the ice blocks onto the middle partition plate by rotating around an axial direction, and the ice melting water flows into the water storage chamber through the water leakage holes;

the ice making module is arranged in the machine shell, the compressor and the ice making module are arranged in a split mode, and an ice making box assembly of the ice making module is communicated with the compressor through a connecting pipe.

The utility model discloses ice making water dispenser's ice making module passes through the median septum and separates the inner bag for connect ice house and reservoir chamber that set up from top to bottom along vertical direction for seted up the hole that leaks on the median septum, and install ice making box subassembly in connecing the ice house. The space below the whole middle partition plate in the inner container is a water storage chamber, and the space between the middle partition plate and the ice making box assembly is an ice receiving chamber, so that the space in the inner container is used for storing ice or storing water, the volume of the whole ice storage chamber is greatly increased, and a large amount of ice making requirements of users can be met. Because the space in the whole inner container is used for making ice, ice blocks and ice water can be concentrated, and the cold energy of the ice blocks and the ice water can be effectively utilized. Simultaneously, modularize the whole ice storage and ice making box assembly, the internal structure of the ice making module is convenient to maintain, replace and clean, the universality is high, and the cost investment is reduced for the model expansion in the later period.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural view of an embodiment of an ice making module of an ice making water dispenser of the present invention;

FIG. 2 is a schematic top view of the liner shown in FIG. 1 with the top cover removed;

fig. 3 is a schematic sectional view of an ice making module of the ice making water dispenser of fig. 1;

fig. 4 is a front view structural schematic diagram of an ice making module of the ice making water dispenser in fig. 3;

fig. 5 is a schematic structural diagram of an embodiment of a middle partition plate of the ice making module of the ice making water dispenser of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)	Reference numerals	Name (R)
						1	Inner container	21	Water leakage hole	32	Ice receiving box
11	Ice receiving chamber	22	Ice receiving part	321	Overflow hole
						12	Water storage chamber	221	Ice outlet channel	33	Water receiving box
121	The first water storage chamber	23	Ice retaining cover	34	Evaporator with a heat exchanger
						122	The second water storage chamber	24	Ice outlet	35	Ice-poking plate
10	Normal temperature water inlet	25	Water collection part	4	Water-stop sheet
						13	First side wall	3	Ice box assembly
2	Middle partition board	31	Ice discharge port

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B" including either scheme A, or scheme B, or a scheme in which both A and B are satisfied.

The utility model provides an ice making module of ice making water dispenser.

In the embodiment of the present invention, as shown in fig. 1 to 5, the ice making module of the ice making water dispenser includes an inner container 1, a middle partition board 2 and an ice making box assembly 3. The middle clapboard 2 is arranged in the inner container 1, and divides the inner container 1 into an ice receiving chamber 11 and a water storage chamber 12 which are arranged up and down along the vertical direction, and the middle clapboard 2 is provided with a water leakage hole 21. The ice making box assembly 3 is arranged in the ice receiving chamber 11 of the inner container 1, the ice making box assembly 3 is used for making water into ice blocks and pouring the ice blocks onto the middle partition board 2 by rotating around an axial direction, and the ice melting water flows into the water storage chamber 12 through the water leakage holes 21.

In this embodiment, the overall shape of the liner 1 may be substantially cylindrical, rectangular, elliptic cylindrical, and the like, and may be selected according to actual use requirements, which is not limited herein. The overall shape of the inner container 1 is illustrated as a rectangle. The inner container 1 may be an integrally formed structure, or may be a structure formed by splicing several plates, and is not limited specifically herein. The middle partition board 2 and the inner container 1 can be integrally formed or can be formed separately. In order to facilitate the manufacture and the maintenance, the middle clapboard 2 and the inner container 1 can be arranged in a split way. The middle clapboard 2 and the inner wall surface of the inner container 1 can be connected by means of screws, buckles, glue bonding and the like. The shape of the middle clapboard 2 can be a plane plate or a special-shaped plate formed by splicing a plurality of plates. The inner container 1 can be divided into an upper ice receiving chamber 11 and a lower water storage chamber 12. It can be understood that the middle partition plate 2 can completely divide the inner container 1 into an upper space and a lower space, at this time, the middle partition plate 2 is matched with the shape of the inner container 1, and the outer wall surface of the middle partition plate 2 is attached to the inner wall surface of the inner container 1. Of course, the middle partition board 2 may only partition the upper and lower spaces of the inner container 1, that is, the middle partition board 2 is not completely attached to the inner wall surface of the inner container 1, and at this time, the middle partition board 2 should be able to receive the ice cubes poured out from the ice making housing assembly 3.

The water leakage holes 21 arranged on the middle partition board 2 can be one or more, the shape of the water leakage holes can be circular, oval, triangular and the like, and the size of the water leakage holes 21 can be selected according to the use requirement. The position of the water leakage hole 21 can be set according to the requirement, and in order to facilitate the flow of the ice-melting water into the water storage chamber 12, the water leakage hole 21 is preferably set at the lower position of the middle partition plate 2. Therefore, the ice melting water on the middle partition plate 2 can flow into the water storage chamber 12 from the water leakage hole 21, and the ice melting water is prevented from accumulating to melt more ice blocks or the melting speed of the ice blocks is increased.

Specifically, referring to fig. 3 and 4, the ice box assembly 3 further includes a motor (not shown), an evaporator 34 mounted on the water receiving box 33, and an ice-ejecting plate 35 connected to an ice discharging end of the water receiving box 33, an output shaft of the motor (not shown) is connected to one end of the water receiving box 33 to drive the water receiving box 33 to rotate in the ice receiving box 32, the water receiving box 33 has a first state of rotating to dump ice cubes to the ice receiving box 32 and a second state of rotating to drive the ice-ejecting plate 35 to eject ice cubes in the ice receiving box 32 to the ice receiving portion 22.

It will be appreciated that in the actual ice making process, the evaporator 34 is connected to the compressor by a connecting line. The evaporator 34 includes a horizontally disposed ice making tube and a plurality of vertically disposed ice making bars communicating with the ice making tube. The ice making pipe may be provided on the water receiving box 33 by means of a screw, a pressing plate, a snap fit, etc. The water in the water receiving box 33 can be poured manually, introduced through a water conduit, pumped by a water pump or directly communicated with the smart seat for introduction. The water received in the water receiving box 33 can be water on the water dispenser, external water or water in the water storage chamber 12. The ice poking plate 35 and the ice discharging end of the water receiving box 33 can be fixedly connected or hinged. In order to further facilitate ice-picking, the ice-picking plate 35 is preferably hinged to the water receiving box 33.

During ice making, the water receiving box 33 is located at a horizontal position, water is filled in the water receiving box 33, the ice making rod of the evaporator 34 extends into the water, at the moment, the touch piece on the water receiving box 33 triggers a micro switch, a compressor and other refrigeration systems perform refrigeration work, and as the ice making rod of the evaporator 34 extends into the water, the water around the ice making rod is rapidly condensed onto the ice making rod to form ice blocks. When ice is taken, the motor (not shown) starts to work to drive the water receiving box 33 to rotate, so that the water collecting box rotates from the horizontal position to the inclined position, after the water collecting box rotates to a certain angle, the trigger piece is driven to trigger the other microswitch, the motor (not shown) stops working, the refrigerating systems such as the compressor and the like perform heating work, the inner surface of ice cubes is heated to be slightly melted and then smoothly falls into the ice receiving box 32, and at the moment, the water receiving box 33 is in the first state. When the water receiving box 33 needs to be rotated to reset, the control motor (not shown) rotates in the reverse direction to a horizontal state, at this time, the ice-poking plate 35 pokes ice cubes out of the ice receiving box 32 to the middle partition plate 2 in the rotation resetting process of the water receiving box 33, and at this time, the water receiving box 33 is in a second state. Thus, one ice making cycle is completed. The size of the ice cubes to be made can be selected by adjusting the cooling time and the heating time.

The utility model discloses ice making water dispenser's ice making module passes through median septum 2 and separates inner bag 1 for along the vertical direction setting from top to bottom connect ice chamber 11 and reservoir chamber 12 for seted up the hole 21 that leaks on median septum 2, and install ice making box subassembly 3 and connect in the ice chamber 11. The space below the whole middle partition board 2 in the inner container 1 is the water storage chamber 12, and the space between the middle partition board 2 and the ice making box component 3 is the ice receiving chamber 11, so that the space in the inner container 1 is used for storing ice or storing water, the volume of the whole ice storage is greatly increased, and the requirement of a large amount of ice making of users can be met. Because the space in the whole inner container 1 is used for making ice, ice blocks and ice water can be concentrated, and the cold energy of the ice blocks and the iced water can be effectively utilized. Simultaneously, modularize whole ice storage and ice making box component 3 together, then be convenient for maintain, change and wash the inner structure of system ice module, and the commonality is high, for the model extension reduce cost input of later stage.

In one embodiment, the ice making module of the ice making water dispenser further includes a water pumping assembly (not shown) for pumping water in the water storage chamber 12 into the ice making box assembly 3.

In this embodiment, the water pumping unit (not shown) may include a water pump and a water pipe, and the water pipe is connected to the water storage chamber 12 and the water receiving box 33 of the ice making box unit 3. The water in the water storage chamber 12 is pumped into the water receiving box 33 of the ice making box assembly 3 by a water pump. The water stored in the water storage chamber 12 may be normal temperature water, ice melting water or a mixture of the two. By pumping the water in the water storage chamber 12 into the ice making box assembly 3 for making ice, on one hand, the excessive water stored in the water storage chamber 12 can be prevented, and on the other hand, the water in the water storage chamber 12 can be kept in a certain temperature. When the ice water in the water storage chamber 12 is changed into normal temperature water and the user needs to drink the ice water, the normal temperature water in the water storage chamber 12 does not need to be discharged, and the ice water can be quickly converted into the ice water after a period of time. Meanwhile, as the water storage chamber 12 can store normal-temperature water, in the ice making process, the ice making time can be controlled to adjust the mixing amount of ice water and the normal-temperature water, so that the coldness of the ice water can be adjusted, a user can select the freezing degree of the ice water according to the use requirement, and the user experience is further improved.

In an embodiment, referring to fig. 3 and 4, the ice making module of the ice making water dispenser further includes a water stop plate 4, the water stop plate 4 is disposed in the water storage chamber 12 and divides the water storage chamber 12 into a first water storage chamber 121 and a second water storage chamber 122; the middle partition board 2 is provided with water leakage holes 21 corresponding to the positions of the first water storage chamber 121 and the second water storage chamber 122; a water pumping unit (not shown) is used to pump the water in the second water storage chamber 122 into the ice making housing unit 3.

In this embodiment, the water blocking plate 4 may completely separate the water storage chamber 12 into the first water storage chamber 121 and the second water storage chamber 122 which are not communicated with each other, or a circulation hole may be provided in the water blocking plate 4, so that the two water storage chambers 12 may have partial water circulation, and the circulation amount of the two water storage chambers 12 may be controlled by setting the height of the water blocking plate 4. The middle partition plate 2 is provided with water leakage holes 21 at positions corresponding to the first water storage chamber 121 and the second water storage chamber 122. The ice melting water on the middle partition 2 can flow into the first and second water storage chambers 121 and 122 through the water leakage hole 21. By dividing the water storage chamber 12 into the first water storage chamber 121 and the second water storage chamber 122 by using the water stop plate 4, and only enabling the water pumping assembly (not shown) to pump the water in the second water storage chamber 122 into the ice making box assembly 3, the water in the first water storage chamber 121 and the water in the second water storage chamber 122 have a certain temperature difference, that is, the water in one water storage chamber 12 is a little frozen, and the water in the other water storage chamber 12 is a little frozen. So, the user can take the ice water of two kinds of different coldness as required.

On the basis of the above embodiment, further, as shown in fig. 3, the second water storage chamber 122 has a normal temperature water inlet 10. Therefore, the normal-temperature water is stored in the second water storage chamber 122, and the amount of the ice water can be controlled by controlling the ice making time of the ice water in the second water storage chamber 122, so as to control the water temperature after the ice water and the normal-temperature water are mixed. The user may select the degree of ice water cooling in second reservoir 122. In addition, the first water storage chamber 121 only stores ice water, so that the water in the first water storage chamber 121 has a lower temperature than the water in the second water storage chamber 122, and further meets the use requirement of the user.

In an embodiment, as shown in fig. 3 and 4, the ice making housing assembly 3 is correspondingly disposed right above the second water storage chamber 122. It is understood that the middle barrier 2 is disposed below the ice making box assembly 3, and the middle barrier 2 has a position corresponding to the first and second water storage chambers 121 and 122. So that the ice making housing assembly 3 is correspondingly disposed above the second water storage chamber 122, most or all of the ice cubes poured from the ice making housing assembly 3 fall into the position of the middle partition plate 2 corresponding to the first water storage chamber 121. Therefore, the ice blocks are arranged above the first water storage chamber 121, the ice melting water directly flows into the first water storage chamber 121, and the cold energy of the ice blocks can keep the ice water in the first water storage chamber 121 cold.

In one embodiment, referring to fig. 3 and 4, the ice box assembly 3 has an ice discharge opening 31, the inner container 1 has an ice outlet (not shown) and a first sidewall 13 facing the ice discharge opening 31; the middle partition 2 includes an ice receiving portion 22 inclined downward from the ice making box assembly 3 toward the first sidewall 13, an ice outlet passage 221 is formed at a position of the ice receiving portion 22 close to the first sidewall 13, and the ice outlet passage 221 is communicated with an ice outlet (not shown).

In this embodiment, the ice discharge port 31 may be composed of an opening formed between the water receiving box 33 and the ice receiving box 32. The ice outlet (not shown) of the inner container 1 may be provided on the first sidewall 13 of the inner container 1, or may be provided on the second sidewall connected to the first sidewall 13. By arranging the ice receiving portion 22 to be inclined downward from the ice cassette unit 3 toward the first side wall 13, the ice cubes discharged from the ice discharge port 31 of the ice cassette unit 3 are directly guided to the ice discharge passage 221, and then discharged through the ice discharge port (not shown). Thus, the ice cubes are prevented from being widely distributed on the intermediate partition 2, so that the ice cubes are concentrated to the ice outlet passage 221, and the melting speed of the ice cubes can be reduced. It is understood that the ice receiving portion 22 may extend from the position of the middle partition 2 corresponding to the ice discharge opening 31 to the first side wall 13, and may also extend from the first side wall 13 to the position of the middle partition 2 beyond the ice discharge opening 31, that is, the ice cubes delivered from the ice discharge opening 31 can all fall into the ice receiving portion 22. The ice receiving portion 22 may be a whole inclined plate, and the ice outlet passage 221 is formed by the end of the plate and the first sidewall 13. The ice receiving part 22 may further include a first plate provided to be inclined downward in the direction of the first sidewall 13 from the ice making box assembly 3, and a second plate connected to an end of the first plate. The second plate can be arranged horizontally, and the second plate can also be arranged in an arc shape. To facilitate the delivery of ice pieces from the ice outlet (not shown), the ice outlet channel 221 may be provided to be inclined downward toward the ice outlet (not shown).

On the basis of the above embodiment, as shown in fig. 5, the middle partition plate 2 further includes an ice blocking cover 23, the ice blocking cover 23 is covered above the ice outlet channel 221, and the ice blocking cover and the ice outlet channel 221 enclose to form the ice outlet port 24. In this way, the ice blocking cover 23 can prevent ice cubes discharged from the ice making housing assembly 3 from falling into the ice outlet 24, and further, the ice outlet (not shown) can be more smoothly discharged.

In the above embodiment combining the middle partition plate 2 with the ice receiving portion 22, further, referring to fig. 3 and 4 again, the middle partition plate 2 further includes a water collecting portion 25 connected to an end of the ice receiving portion 22 away from the ice outlet channel 221, and a connection end of the water collecting portion 25 and the ice receiving portion 22 is higher than an end of the water collecting portion 25 away from the ice receiving portion 22; the ice-making box assembly 3 comprises an ice-receiving box 32 and a water-receiving box 33 rotatably mounted in the ice-receiving box 32, the water collecting part 25 is arranged corresponding to the ice-making box assembly 3, the bottom wall surface of the ice-receiving box 32 is provided with an overflow hole 321, and the water collecting part 25 is provided with a water leakage hole 21.

In this embodiment, a baffle may be disposed at the connection end of water collecting portion 25 and ice receiving portion 22 so as to be higher than the end of water collecting portion 25 far from ice receiving portion 22, or water collecting portion 25 may be disposed to be inclined or bent downward from ice receiving portion 22 in a direction far from ice receiving portion 22 so that the connection end of water collecting portion 25 and ice receiving portion 22 is higher than the end of water collecting portion 25 far from ice receiving portion 22. By providing the overflow hole 321 in the bottom wall surface of the ice receiving box 32 and opening the water leakage hole 21 in the water collecting portion 25, ice water flowing down from the ice receiving box 32 can flow into the water storage chamber 12 through the water collecting portion 25. Because the connecting end of the water collecting part 25 and the ice receiving part 22 is higher than the end of the water collecting part 25 far away from the ice receiving part 22, the deicing water flowing down from the ice receiving box 32 does not flow to the ice receiving channel, and the deicing water can be prevented from accelerating the melting of ice blocks.

In one embodiment, the water collection portion 25 is disposed adjacent to a bottom wall surface of the ice receiving box 32. Therefore, the whole structure is more compact, the space of the water storage chamber 12 is larger, and the water storage requirement is met. In another embodiment, the water collecting part 25 is disposed to be attached to the bottom wall surface of the ice receiving box 32. Thus, the ice bin 32 can be supported while the storage chamber 12 is large.

The utility model also provides an ice making water dispenser, which comprises a casing, an ice making module of the ice making water dispenser and a compressor, wherein the ice making module is arranged in the casing, the compressor and the ice making module are arranged in a split way, and an ice making box component 3 of the ice making module is communicated with the compressor through a connecting pipe; the specific structure of the ice making module of the ice making water dispenser refers to the above embodiments, and as the ice making water dispenser adopts all the technical schemes of all the embodiments, the ice making water dispenser at least has all the beneficial effects brought by the technical schemes of the embodiments, and no further description is given here. Wherein, the compressor and the ice making box component 3 can exchange heat through a pipeline or an evaporator.

Claims (10)

1. An ice making module of an ice making water dispenser, comprising:

an inner container;

the middle clapboard is arranged in the inner container and divides the inner container into an ice receiving chamber and a water storage chamber which are vertically arranged, and the middle clapboard is provided with a water leakage hole; and

the ice making box assembly is arranged in the ice receiving chamber of the inner container and used for making water into ice cubes and pouring the ice cubes onto the middle partition plate in an axial rotation mode, and ice melting water flows into the water storage chamber through the water leakage holes.

2. The ice making module of an ice making water dispenser of claim 1 further comprising a water pumping assembly for pumping water in the water storage compartment into the ice making box assembly.

3. The ice making module of an ice making water dispenser of claim 2, further comprising a water barrier disposed in the water storage chamber and dividing the water storage chamber into a first water storage chamber and a second water storage chamber;

the middle partition plate is provided with the water leakage holes corresponding to the first water storage chamber and the second water storage chamber;

the water pumping assembly is used for pumping water in the second water storage chamber into the ice making box assembly.

4. An ice making module for an ice making water dispenser as claimed in claim 3, wherein the second water storage chamber has a normal temperature water inlet.

5. An ice making module of an ice making water dispenser as claimed in claim 3, wherein the ice making box assembly is correspondingly arranged right above the second water storage chamber in the ice receiving chamber.

6. An ice making module of an ice making water dispenser as claimed in any one of claims 1 to 5, wherein the ice making box assembly has an ice discharge port, the inner container has an ice outlet and a first side wall facing the ice discharge port;

the middle partition plate comprises an ice receiving part which is obliquely arranged from the ice making box assembly to the first side wall in a downward direction, an ice outlet channel is formed at the position, close to the first side wall, of the ice receiving part, and the ice outlet channel is communicated with the ice outlet.

7. An ice making module of an ice making water dispenser as claimed in claim 6, wherein the middle partition plate further comprises a water collecting part connected with one end of the ice receiving part far away from the ice outlet channel, and the connecting end of the water collecting part and the ice receiving part is higher than one end of the water collecting part far away from the ice receiving part;

the ice making box assembly comprises an ice receiving box and a water receiving box which is rotatably arranged in the ice receiving box, the water collecting part is arranged corresponding to the ice making box assembly, the bottom wall surface of the ice receiving box is provided with an overflow hole, and the water collecting part is provided with the water leakage hole.

8. An ice making module of an ice making water dispenser as claimed in claim 7, wherein the water collecting part is disposed adjacent to or attached to a bottom wall surface of the ice receiving box.

9. The ice making module of an ice making water dispenser as claimed in claim 7, wherein the ice making box assembly further comprises a motor, an evaporator erected on the water receiving box and an ice poking plate connected to the ice discharging end of the water receiving box, an output shaft of the motor is connected to one end of the water receiving box to drive the water receiving box to rotate in the ice receiving box, and the water receiving box has a first state of rotating to dump ice cubes to the ice receiving box and a second state of rotating to drive the ice poking plate to poke the ice cubes in the ice receiving box to the ice receiving part.

10. An ice making water dispenser, comprising:

a housing;

the ice making module of the ice making water dispenser of any one of claims 1 to 9, mounted in the cabinet; and

the compressor is arranged in the machine shell and is arranged in a split mode with the ice making module, and the ice making box assembly of the ice making module is communicated with the compressor through a connecting pipe.

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