CN100383481C - Water supply device for ice making unit of refrigerator - Google Patents

Abstract

The present invention provides a water supply device of an ice making machine of a refrigerator. The water supply device of an ice making machine of a refrigerator mainly comprises an ice making container, a water supply pipe in a refrigerator, a sleeve made of flexible materials, and a water supply guiding plate, wherein the ice making container is used for the placement of ice making water, the water supply pipe in a refrigerator is arranged at the upper part of the ice making container, the sleeve made of flexible materials is sheathed on the end part of the water supply pipe in a refrigerator, the end part of the sleeve forms an opening shape, and the water supply guiding plate which is connected to the upper side of the end part of the sleeve is used for guiding water supplied to the inner part of the ice making container towards a lower position.

Description

The ice machine waterworks of refrigerator

Technical field

The present invention relates to a kind of ice machine waterworks of refrigerator, furtherly, then relate to a kind of ice machine waterworks that can bring the refrigerator of following effect: make flow and constant airspeed to the water of ice machine supply, when the above-mentioned ice machine of rotation, prevent that above-mentioned ice machine and case internal feed pipe from producing interference.

Background technology

General refrigerator has refrigerating chamber and refrigerating chamber, keeps low temperature in order to make above-mentioned refrigerating chamber and refrigerating chamber, also is provided with freeze cycle.Above-mentioned freeze cycle by compressor and condenser, also have capillary and evaporimeter to constitute.Be formed with medium pipeline on the above-mentioned evaporimeter, stream has the liquid medium of low-temp low-pressure in the above-mentioned medium pipeline.Above-mentioned liquid medium obtains heat from above-mentioned evaporimeter ambient air, is gasified.So above-mentioned evaporimeter ambient air converts cold air to.Above-mentioned cold air is fed in above-mentioned refrigerating chamber and the refrigerating chamber.Ice machine is arranged on the inside of above-mentioned refrigerating chamber, is used for ice making, and the case internal feed pipe is to above-mentioned ice machine supply water.

With reference to the accompanying drawings, the ice machine waterworks to the prior art refrigerator describe.

Fig. 1 demonstrates the oblique view of water supply structure in the existing technology refrigerator.

As shown in the figure, refrigerator body 2 is provided with feed pipe 4, and above-mentioned feed pipe 4 is attached on the outside water-supply source.Above-mentioned feed pipe 4 is attached on the valve 6 of refrigerator inside.Above-mentioned valve 6 control water sources are to racking machine (dispenser) 8 and ice machine 10 feedwater.Above-mentioned valve 6 be attached at respectively connecting piece 12,12 ' and the outer feed pipe 14 of case on, above-mentioned connecting piece 12,12 ' be used for to above-mentioned racking machine 8 feedwater; The outer feed pipe 14 of above-mentioned case is used for to above-mentioned ice machine 10 feedwater.

Current flow through above-mentioned connecting piece 12,12 ' the path be provided with water pot 16, above-mentioned water pot 16 can be stored the water of a constant volume.In addition, above-mentioned connecting piece 12,12 ' the end be attached on the racking machine 8 of above-mentioned refrigerator front, make and can take out water from above-mentioned racking machine 8.

The outer feed pipe 14 of above-mentioned case is arranged on the rear of above-mentioned refrigerator, and case internal feed pipe 20 is arranged on the inside of above-mentioned refrigerator, and the outer feed pipe 14 of above-mentioned case is connected at the top and the above-mentioned case internal feed pipe 20 of above-mentioned refrigerator.Above-mentioned case internal feed pipe 20 is used for the ice machine 10 supply water in the refrigerating chamber that is arranged on above-mentioned refrigerator.

Above-mentioned ice machine 10 obtains utilizing above-mentioned water to make ice from the water of above-mentioned case internal feed pipe 20 supplies, by moving the ice process of moving of the above-mentioned ice of making, ice is sent in the ice tank 26 of the bottom that is arranged on above-mentioned ice machine 10.

Fig. 2 demonstrates the section of structure of the ice machine waterworks of existing technology refrigerator.

As shown in the figure, be supplied to the water of the outer feed pipe 14 of case that is arranged on above-mentioned refrigerator body rear to send on the case internal feed pipe 20 of the end that is attached at the outer feed pipe 14 of above-mentioned case, the water that is fed to above-mentioned case internal feed pipe 20 is fed in the ice maker container 22, is used for above-mentioned water is made ice.In addition, above-mentioned case internal feed pipe 20 downward-sloping settings are so that be more prone to the feedwater of above-mentioned ice maker container 22.

In addition, the end 21 of above-mentioned case internal feed pipe 20 be positioned at above-mentioned ice machine 10 ice maker container 22 directly over.So water directly drops in the above-mentioned ice maker container 22 by the end 21 of above-mentioned case internal feed pipe 20.Above-mentioned ice machine 10 utilizes the water of above-mentioned supply to make ice, the above-mentioned ice of making is sent to the ice tank (with reference to Fig. 1) that is arranged on above-mentioned ice machine 10 bottoms by moving the ice process.As mentioned above, the process that ice is moved ice from above-mentioned ice maker container 22 is: by the above-mentioned ice machine 10 of manual rotation, move ice by rotation (twist) mode.

With reference to the accompanying drawings, the problem that the waterworks of the ice machine of prior art with said structure are existed describes.

Fig. 3 demonstrates the working state figure of the ice machine waterworks of existing technology refrigerator.

As shown in the figure, when the above-mentioned case internal feed pipe 20 of assembling, if deviation slightly, the end 21 of above-mentioned case internal feed pipe 20 can be outstanding slightly, when moving the ice process and when rotating above-mentioned ice machine 10 in order to carry out, above-mentioned ice machine 10 and case internal feed pipe 20 mutual interference mutually.When above-mentioned ice machine 10 and case internal feed pipe 20 collided mutually, then above-mentioned ice machine 10 or case internal feed pipe 20 will produce damage, and above-mentioned case internal feed pipe 20 has the possibility that breaks away from from the tram.

In addition, when in above-mentioned ice maker container 22, supplying water from above-mentioned case internal feed pipe 20, when the hydraulic pressure of above-mentioned water, water supply flow and speed etc. can not be kept steady state value, the part of the water of supply might break away from above-mentioned ice maker container 22 and collapse in the ice tank that is arranged on its underpart (with reference to Fig. 1).If the part of above-mentioned supply water drops in the above-mentioned ice tank, the ice that then is stored in the above-mentioned ice tank can be frozen into together owing to above-mentioned water.

Summary of the invention

The present invention proposes in order to solve above-mentioned prior art problems, and first purpose of the present invention is: when rotating ice machine in order to move ice, prevent above-mentioned ice machine and the mutual interference mutually of case internal feed pipe, make above-mentioned ice machine successfully to be rotated.

Second purpose of the present invention in addition is: make that the speed and the direction of the water be supplied to ice maker container are constant, a part that prevents the water supplied collapses above-mentioned ice maker container, drop in the ice tank that is arranged on the bottom, thereby prevent that the ice in the above-mentioned ice tank is frozen into together.

To achieve these goals, the invention provides a kind of ice machine waterworks of refrigerator, comprise ice maker container, the case internal feed pipe, ice maker container holds the water that is used for ice making, the case internal feed pipe dips down from the top of ice machine and tiltedly is provided with, and the downside end of case internal feed pipe is arranged on the top of ice maker container, ice machine moves the ice that the ice mode will make with rotation and is sent in the ice tank that is arranged on the ice machine bottom, the ice machine waterworks of this refrigerator also comprise the cover of flexible material, the cover of flexible material is enclosed within the end of above-mentioned case internal feed pipe, and the end of cover is an opening shape.

Above-mentioned feedwater guided plate is arranged on the downside end of cover, is used for guiding the water that will be fed to above-mentioned ice maker container downwards.

In addition, above-mentioned feedwater guided plate and above-mentioned cover form one.

Also have, above-mentioned cover and feedwater guided plate are made by rubber.

In sum, the ice machine waterworks of the refrigerator of the present invention by having said structure, can bring following effect:

When rotation is used to move the ice machine of ice, even above-mentioned ice machine and attached between the cover on the end of case internal feed pipe mutually the collision, above-mentioned ice machine or above-mentioned case internal feed pipe can not produce damage yet, and be irrelevant with above-mentioned mutual interference mutually, the rotation that above-mentioned ice machine will be well on.

In addition, by being formed on the feedwater guided plate on the above-mentioned sleeve end, make that the speed and the direction of the water supplied by above-mentioned case internal feed pipe are constant in above-mentioned ice maker container, collapse the phenomenon that from above-mentioned ice maker container so prevented the part of the water of above-mentioned supply.

Description of drawings

Fig. 1 demonstrates the oblique view of relevant water supply structure in the existing technology refrigerator.

Fig. 2 demonstrates the section of structure of the ice machine waterworks of existing technology refrigerator.

Fig. 3 demonstrates the working state figure of the ice machine waterworks of existing technology refrigerator.

Fig. 4 demonstrates the section of structure of the ice machine waterworks of refrigerator of the present invention.

Fig. 5 demonstrates the working state figure of the ice machine waterworks of refrigerator of the present invention.

The critical piece description of reference numerals

The end of 32 casees internal feed pipes of 30 casees internal feed pipes

34 casees outer feed pipe 40 covers

42 standing parts, 44 prolongations

46 feedwater guided plates, 50 ice machines

52 ice maker containers

The specific embodiment

With reference to the accompanying drawings, the embodiment to the invention described above ice machine waterworks is elaborated.

Fig. 4 demonstrates the section of structure of the ice machine waterworks of refrigerator of the present invention.

As shown in the figure, refrigerating chamber inside is provided with the ice machine 50 that is used for ice making, and the top of above-mentioned ice machine 50 dips down and tiltedly is provided with case internal feed pipe 30, and above-mentioned case internal feed pipe 30 is used for supply water in the ice maker container 52 of above-mentioned ice machine 50.The upside of above-mentioned case internal feed pipe 30 links the outer feed pipe 34 of case, and the downside end 32 of the above-mentioned case internal feed pipe 30 of opening is positioned at the top of above-mentioned ice maker container 52, so that the water through above-mentioned case internal feed pipe 30 is directly dropped in the above-mentioned ice maker container 52.

The end 32 of above-mentioned case internal feed pipe 30 is attached with cover 40, and above-mentioned cover 40 is made by flexible materials such as rubber.The both side ends of above-mentioned cover 40 forms the shape of opening, and the upper side end of above-mentioned cover 40 is enclosed within on the downside end 32 of above-mentioned case internal feed pipe 30.At this moment, not that above-mentioned cover 40 integral body are enclosed within on the above-mentioned case internal feed pipe 30, but the part of above-mentioned cover 40 is enclosed within on the downside end 32 of above-mentioned case internal feed pipe 30.So above-mentioned cover 40 is divided into standing part 42 and prolongation 44, said fixing part 42 is enclosed within on the downside end 32 of above-mentioned case internal feed pipe 30, and above-mentioned cover 40 is fixed on the above-mentioned case internal feed pipe 30; Above-mentioned prolongation 44 is not enclosed within on the downside end 32 of above-mentioned case internal feed pipe 30, plays the effect that prolongs above-mentioned case internal feed pipe 30.

Be used for ice making and supply water in above-mentioned ice maker container 52, above-mentioned water is supplied to above-mentioned ice maker container 52 by above-mentioned case internal feed pipe 30 and cover 40.That is to say, the prolongation 44 of the above-mentioned cover 40 that prolongs through the downside end 32 of the above-mentioned case internal feed pipe 30 of associating again through the water of above-mentioned case internal feed pipe 30, be supplied to above-mentioned ice maker container 52, thus the prolongation 44 of above-mentioned cover 40 need be positioned at above-mentioned ice maker container 52 directly over.

In addition as shown in the figure, the end of the prolongation 44 of above-mentioned cover 40 is formed with feedwater guided plate 46, and above-mentioned feedwater guided plate 46 is used to guide the speed and the direction of the water that is supplied to above-mentioned ice maker container 52.Above-mentioned feedwater guided plate 46 is tabular, forms one at the terminal upside and the above-mentioned cover 40 of the prolongation 44 of above-mentioned cover 40.If above-mentioned feedwater guided plate 46 is shaped by flexible rubber, water and the above-mentioned feedwater guided plate 46 supplied in above-mentioned ice maker container 52 by above-mentioned case internal feed pipe 30 bump against, then above-mentioned feedwater guided plate 46 will be the center with the terminal upside of above-mentioned prolongation 44, produces turn slightly.Can above-mentioned feedwater guided plate 46 and above-mentioned cover 40 not formed one in addition yet, its terminal part upside that is attached at above-mentioned cover 40 prolongations 44 is also harmless.

With reference to the accompanying drawings, the course of work to the waterworks of ice machine with said structure is elaborated.

Fig. 5 demonstrates the working state figure of the ice machine waterworks of refrigerator of the present invention.

Generally, outside above-mentioned case the water of feed pipe 34 supply be fed to above-mentioned case outside in the above-mentioned case internal feed pipe 30 that is connected of the end of feed pipe 34, and then water is fed in the above-mentioned ice maker container 52, utilize above-mentioned water to make ice.In the present invention, feedwater is by the top at above-mentioned ice maker container 52 above-mentioned case internal feed pipe 30 to be set in above-mentioned ice maker container 52, drops to through the water of above-mentioned case internal feed pipe 30 and finishes in the above-mentioned ice maker container 52.

As mentioned above, finish in the ice maker container 52 of above-mentioned ice machine 50 after the supply water, utilize the cold air of above-mentioned refrigerating chamber inside that the water of above-mentioned supply is made ice by above-mentioned case internal feed pipe 30.By rotating above-mentioned ice machine 50, move the ice mode with rotation the above-mentioned ice of making is sent in the ice tank that is arranged on above-mentioned ice machine 50 bottoms (not demonstrating in the accompanying drawing).

As shown in the figure, the end 32 of above-mentioned case internal feed pipe 30 is attached with the cover 40 that is made by flexible material.Above-mentioned cover 40 is fixed on the above-mentioned case internal feed pipe 30 by said fixing part 42, the prolongation 44 that prolongs above-mentioned case internal feed pipe 30 be positioned at above-mentioned ice maker container 52 directly over.Move the ice mode when rotating ice machine 50 by above-mentioned rotation, if produce deviation when assembling above-mentioned case internal feed pipe 30, collision mutually between the end 32 of above-mentioned ice machine 50 and case internal feed pipe 30, above-mentioned interference will become the collision between the prolongation 44 of above-mentioned ice machine 50 and above-mentioned cover 40.Disturb even produce between the prolongation 44 of above-mentioned ice machine 50 and cover 40, by the elastic force of above-mentioned cover 40, the influence that above-mentioned ice machine 50 also can not be interfered can very successfully be rotated.

In addition, compare with the ice machine waterworks of prior art, not to produce the phase mutual interference between above-mentioned case internal feed pipe 30 and the ice machine 50, but produce the phase mutual interference between above-mentioned cover 40 and the ice machine 50, so above-mentioned case internal feed pipe 30 can not produce owing to colliding the damage that causes between above-mentioned case internal feed pipe 30 and the ice machine 50 mutually.

In addition, as shown in the figure, the terminal part upside of the prolongation 44 of above-mentioned cover 40 is formed with feedwater guided plate 46.Above-mentioned feedwater guided plate 46 just is attached at the terminal part upside of above-mentioned prolongation 44, do not block flowing path outlet---the end of above-mentioned cover 40 of supply water in above-mentioned ice maker container 52, so in above-mentioned ice maker container 52, supply water by case internal feed pipe 30, be not subjected to any obstacle.On the contrary, if the speed of the water of supplying in above-mentioned ice maker container 52 from above-mentioned case internal feed pipe 30 changes, the water of above-mentioned supply will impinge upon on the above-mentioned feedwater guided plate 46, weaken the speed of the water of supply in above-mentioned ice maker container 52.In addition, above-mentioned feedwater guided plate 46 also plays the effect of the direction of the fixing water of supplying in above-mentioned ice maker container 52.That is to say that above-mentioned case internal feed pipe 30 of process and cover 40 are fed to the water in the above-mentioned ice maker container 52, by the guiding of above-mentioned feedwater guided plate 46, drop in the above-mentioned ice maker container 52.

In the prior art, owing to do not form above-mentioned feedwater guided plate 46 in the end 32 of above-mentioned case internal feed pipe 30, so when the speed of the water of supply and direction change in above-mentioned ice maker container 52, the part of the water of above-mentioned supply collapses from above-mentioned ice maker container 52, drop in the ice tank that is arranged on above-mentioned ice machine 50 bottoms (not demonstrating in the accompanying drawing), make the ice that is stored in the above-mentioned ice tank be frozen into together.

But in ice machine waterworks of the present invention, as shown in the figure, above-mentioned cover 40 and feedwater guided plate 46 are set on the end 32 of above-mentioned case internal feed pipe 30.So supply the velocity attitude of water in above-mentioned ice maker container 52 changes by above-mentioned case internal feed pipe 30, above-mentioned supply water impinges upon on the wall of above-mentioned feedwater guided plate 46, can reduce the speed of the water of supply in above-mentioned ice maker container 52, and make direction constant, so can solve prior art problems by above-mentioned feedwater guided plate 46.

In sum, the basic fundamental thought of the ice machine waterworks of refrigerator of the present invention is to put the cover 40 of flexible material on the end 32 of case internal feed pipe 30, formation feedwater guided plate 46 on the end of above-mentioned cover 40.

Up to the present, though be that the center has been described in detail with embodiments of the invention, the personnel that have general knowledge in the technical field of the invention can propose a lot of distortion in basic fundamental thought range of the present invention.Basic fundamental thought of the present invention is embodied in the patent request scope, and all differences point in the equal with it scope all should be interpreted as belonging to scope of the present invention.

Claims (7)

1. the ice machine waterworks of a refrigerator, the ice machine waterworks of described refrigerator mainly comprise ice maker container, the case internal feed pipe, ice maker container holds the water that is used for ice making, the case internal feed pipe dips down from the top of ice machine and tiltedly is provided with, and the downside end of case internal feed pipe is arranged on the top of ice maker container, ice machine moves the ice that the ice mode will make with rotation and is sent in the ice tank that is arranged on the ice machine bottom, it is characterized in that: the ice machine waterworks of described refrigerator also comprise the cover (40) of flexible material, cover (40) is enclosed within the end of described case internal feed pipe (30), and the both side ends of cover (40) is an opening shape.

2. the ice machine waterworks of refrigerator according to claim 1, it is characterized in that: the ice machine waterworks of described refrigerator also comprise feedwater guided plate (46), feedwater guided plate (46) is arranged on the downside end of cover (40), is used for guiding the water that will be fed to ice maker container downwards.

3. the ice machine waterworks of refrigerator according to claim 2 is characterized in that: described feedwater guided plate (46) and cover (40) formation one.

4. according to the ice machine waterworks of claim 2 or 3 described refrigerators, it is characterized in that: described cover (40) and feedwater guided plate (46) are made by rubber.

5. the ice machine waterworks of refrigerator according to claim 1 is characterized in that: the both side ends of described cover (40) forms the shape of opening, and a side end of cover (40) is enclosed within on the downside end of case internal feed pipe (20).

6. according to the ice machine waterworks of claim 2 or 5 described refrigerators, it is characterized in that:

The prolongation (44) that described cover (40) prolongs from case internal feed pipe (20) be positioned at ice maker container (52) directly over.

7. according to the ice machine waterworks of claim 2 or 3 described refrigerators, it is characterized in that: described feedwater guided plate (46) is tabular.

Images