CN104422219B - Ice maker - Google Patents

Abstract

The invention provides an ice maker. The ice maker includes: a freezing plate configured to be cooled by an evaporator to freeze water flowing thereon; a water tub disposed below the freezing plate to collect water falling from the freezing plate; an ice bin forming an ice storage space around the water tub to collect ice falling from the freezing plate; and a plate-shaped ice storage guide placed on an upper end of the water tub between the freezing plate and the water tub, the ice storage guide including a sloped part inclined toward the ice bin and a plurality of discharge holes narrower than widths of ice cubes formed by the freezing plate. Parts of the ice maker are simple and can be easily cleaned, and thus the ice maker may be hygienically used.

Description

Ice machine

Cross-Reference to Related Applications

This application claims in Korean Patent Application No. 10-2013- to Korean Intellectual Property Office's submission on the 4th of September in 2013 0106017 priority, entire contents are hereby incorporated herein by.

Background technology

The present invention relates to a kind of ice machine, relates more specifically to a kind of ice machine including ice storage guider, the ice storage Guider is used to separate in the water fallen from freezing plate and ice to prevent water from flowing in refrigerator-freezer.

In a kind of down flow type ice machine, when water is flowed down along the freezing plate cooled down by evaporimeter, water freeze for Ice, ice is stored in refrigerator-freezer after separating with freezing plate.

With reference to Fig. 1, down flow type ice machine of the prior art includes：Ice making unit, it includes evaporimeter 10, freezing Plate 12 and feed pipe 14；Bucket 20, its be arranged under ice making unit so as to collect the ice making water that falls from freezing plate 12 and The water separated with ice；And ice guider 30, it is arranged on the upper end of bucket 20 so that ice and water are separated, and ice is oriented to The refrigerator-freezer (not shown) being arranged on outside bucket 20.

With reference to Fig. 2 and Fig. 3, ice guider 30 of the prior art includes：Multiple vertical gears arranged with regular intervals The connecting portion 34 of plate 32 and the connection vertical baffle 32.

The upper end of vertical baffle 32 has inclined-plane so that ice is oriented to into refrigerator-freezer.

When ice machine is operated, the part that ice guider 30 and bucket 20 etc. are contacted with water may be covered with incrustation scale (dirt).Therefore, can be cleaned to remove the incrustation scale for being formed on these parts, so as to wholesomely use ice machine.

However, because the interval that the vertical baffle 32 of ice guider 30 in prior art is set is less than the chi of ice cube It is very little, so the structure of ice guider 30 is very complicated, thus it is difficult to clean ice guider 30.

Additionally, as shown in figure 3, the upper end of ice guider 30 hangs over the upper end of bucket 20.Therefore, flow down from freezing plate 12 Water can along the upper end of vertical baffle 32 inclined-plane flow into refrigerator-freezer in so that the ice-out being stored in refrigerator-freezer.

If water is penetrated into as stated above in refrigerator-freezer, then the ice being stored in refrigerator-freezer may melt, thus ice Quality may decline.

The content of the invention

One aspect of the present invention can provide a kind of ice machine, and the ice machine is configured to can be easy to cleaning, and for Ice is stored after ice is completely separated from the water.

According to an aspect of the present invention, a kind of ice machine may include：Freezing plate, it is cooled down to make from institute by evaporimeter State the water flow through on freezing plate to freeze；Bucket, it is arranged under the freezing plate to collect what is flowed down from the freezing plate Water；Refrigerator-freezer, it surrounds and formed around the bucket ice storage area to collect the ice fallen from the freezing plate；And tabular ice storage Guider, it is placed in the upper end of the bucket, and between the freezing plate and the bucket, the ice storage guider bag Include the ice formed towards the inclined rake of the refrigerator-freezer and multiple taps, freezing plate described in the width ratio of the plurality of tap The width of block is less.

The tap can extend on the incline direction of the rake.

The ice storage guider can further include vertically prominent and along its length direction extension from rear side Ribs.

End plate can be set at the two ends of the ice storage guider, to support the storage relative to the upper end of the bucket The main body of ice guider.

The ice storage guider further includes auxiliary discharge hole, and the auxiliary discharge hole is formed in the tap Above and with the tap separate.

The auxiliary discharge hole may be formed between the tap adjacent to each other.

Multiple auxiliary discharge holes can be arranged at a predetermined interval on the length direction of the ice storage guider；And in phase Guiding jaw (guide jaw) can be formed between the adjacent auxiliary discharge hole, so as to the water that will be flowed on the rake It is oriented to the auxiliary discharge hole.

When the ice storage guider is placed on the bucket, in one end of the ice storage guider and the bucket Inwall upper end between can be formed discharge seam.

The ice storage guider can further include the direction protrusion (guide being formed on described rake one end protrusion)。

The ice storage guider can further include the ridge projected from the rake in the edge of the tap (ridges)。

The freezing plate includes front freezing plate and rear freezing plate, the front freezing plate and the rear freezing plate respectively with it is described Two end in contact of evaporimeter, and the front and rear of the ice storage guider is symmetrical, so as to respectively to from described front cold The ice that jelly plate and the rear freezing plate fall is oriented to.

Description of the drawings

Above and other aspect of the present invention, feature and advantage will be from the detailed descriptions made below in conjunction with accompanying drawing To be more clearly understood that, in the accompanying drawings：

Fig. 1 is the perspective view for representing the component being included in the ice machine of prior art, and the component includes ice making unit, water Bucket and ice guider；

Fig. 2 is the perspective view for representing ice guider in Fig. 1；

Fig. 3 is the enlarged drawing for representing part A in Fig. 1；

Fig. 4 is the side cross-sectional views for representing the component being included in ice machine according to embodiments of the present invention, the component bag Include freezing plate, evaporimeter, ice storage guider, bucket and refrigerator-freezer；

Fig. 5 is the perspective view of the ice storage guider for representing ice machine shown in Fig. 4；

Fig. 6 is the close up perspective view for representing the ice storage guider in Fig. 5；

Fig. 7 is the perspective view for the part for representing component shown in Fig. 4；

Fig. 8 is the sectional view for representing the state that ice storage guider shown in Fig. 5 is placed on bucket；And

Fig. 9 is the partial enlarged drawing for representing ice storage guider shown in Fig. 8.

Specific embodiment

The exemplary embodiment of the present invention is described in detail below with reference to accompanying drawings.

However, the present invention can also many other different forms carry out example, the present invention is not intended to be limited to this The specific embodiment that text is listed.Conversely, these embodiments are provided so that the present invention it is more detailed and complete, and in order to Those skilled in the art fully passes on the scope of the present invention.

In the accompanying drawings, for clarity, the shapes and sizes of element may have been exaggerated, in all of the figs identical Drawing reference numeral represents same or analogous element.

In the following description, technical term is only used for explaining specific exemplary embodiment, not to the scope of the present invention and Spirit is construed as limiting.Unless indication is conversely, the term of otherwise singulative may also comprise plural form.

Hereinafter, with reference to the accompanying drawings to the present invention exemplary embodiment be described.

With reference to Fig. 4 to Fig. 9, embodiments in accordance with the present invention are described to ice machine 200.

Fig. 4 is the side cross-sectional views for representing the component being contained in ice machine 200 according to embodiments of the present invention, the component Including freezing plate 210, evaporimeter 220, ice storage guider 100, bucket 230 and refrigerator-freezer 24.Fig. 5 and Fig. 6 are represented respectively The perspective view and partial enlarged drawing of ice storage guider 100.Fig. 7 is the perspective view for the part for representing component shown in Fig. 4.Fig. 8 It is respectively the sectional view and partial enlarged drawing that represent the state that ice storage guider 100 is placed on bucket 230 with Fig. 9.

With reference to Fig. 4 to Fig. 9, embodiments in accordance with the present invention, ice machine 200 includes freezing plate 210, evaporimeter 220, bucket 230th, refrigerator-freezer 240 and ice storage guider 100.

Freezing plate 210 can be cooled down (be hereinafter described) by evaporimeter 220, and water is being flowed down along the surface of freezing plate 210 When can freeze.

In embodiment, freezing plate 210 may include front freezing plate 210a and rear freezing plate 210b, and front freezing plate 210a is with after Freezing plate 210b front sides respectively with evaporimeter 220 and rear contact.However, the configuration not limited to this of freezing plate 210.

Evaporimeter 220 may include pipeline, and cold-producing medium flows in the pipeline.The pipeline can be with multiple sweeps In a zigzag.

As shown in figure 4, evaporimeter 220 can be with the rear contact of freezing plate 210 to cool down freezing plate 210.

Bucket 230 may be provided under freezing plate 210 so as to collect the water flowed down from freezing plate 210 (ice making water and with The separate water of ice).

Refrigerator-freezer 240 can form ice storage area around bucket 230, to collect the ice fallen from freezing plate 210.

Ice storage guider 100 is placed in the upper end of bucket 230, between freezing plate 210 and bucket 230.

Ice storage guider 100 can separate in the ice fallen from freezing plate 210 and water, and ice is oriented to into refrigerator-freezer 240 and by water It is oriented to bucket 230.

Hereinafter, ice storage guider 100 will be further described in more detail with reference to Fig. 5 to Fig. 9.

In embodiment, ice storage guider 100 may include rake 110 and tap 120.Rake 110 may include Ridge 125, ribs 130, end plate 140, auxiliary discharge hole 150, guiding jaw 160 and direction protrusion 170.

Ice storage guider 100 is formed as tabular component, and rake 110 is downward-sloping.

In the state of ice storage guider 100 is placed on bucket 230, the inclined-plane of rake 110 dips down towards refrigerator-freezer 240 Tiltedly.

Tap 120 is the permeability hole being located on ice storage guider 100.The width comparable freezing plate of tap 120 The width of 210 ice cubes for being formed is less.

Tap 120 can be arranged along whole ice storage guider 100.

In embodiment, tap 120 can extend on the incline direction of rake 110.

If tap 120 extends as stated above on the incline direction of rake 110, ice can be easy to inclining Slide in portion 110, block without being discharged hole 120.

Additionally, in embodiment, ridge 125 can be formed along the edge of tap 120.

In other words, ridge 125 can be the edge of tap 120, and ridge 125 is projected upwards from rake 110.

When ice slides on rake 110, due to ridge 125, the contact surface between ice and rake 110 can reduce.Change Sentence is talked about, and due to ridge 125, ice can carry out face contact with the linear contact of rake 110 rather than with rake 110.

Ridge 125 can anti-stagnant ice be stuck on the rake 110 with even shape so that ice can swimmingly in rake Slide on 110.

The upper end of ridge 125 can be circle, farthest to reduce the contact surface between rake 110 and ice.

Ribs 130 can vertically be projected from the rear surface of rake 110, and can be prolonged along the length direction of rake 110 Stretch.

Due to ribs 130, the ice storage guider 100 of tabular is improved to the resistance of normal load.That is, strengthen Rib 130 strengthens ice storage guider 100, prevents ice compressive strain or damage that ice storage guider 100 fallen on.

End plate 140 may be provided at the two ends of ice storage guider 100 to support ice storage guider relative to bucket 230 100 main body.

In embodiment, end plate 140 can be the plate for being arranged on the two ends of ice storage guider 100 and extending downward there-from Shape component.

By the way that the lower end of end plate 140 is arranged on the upper end of bucket 230, ice storage guider 100 can be fixed to bucket 230 upper end.

In embodiment, end plate 140 can be plate-like shape, and end plate 140 single can be formed or one is led coupled to ice storage Two ends to device 100 to reinforce ice storage guider 100, so as to prevent ice storage guider 100 from bending due to weight.

As shown in Figure 5 and Figure 6, auxiliary discharge hole 150 may be formed at the (flowing based on ice and water before tap 120 Direction, positioned at the downstream direction of tap 120) and can separate with tap 120.

Similar to tap 120, auxiliary discharge hole 150 is permeability hole, and the permeability hole is formed in ice storage guider 100 On rake 110 so as to discharge on rake 110 flow water.The width comparable freezing plate 210 of auxiliary discharge hole 150 is formed Ice cube width it is less.

In embodiment, auxiliary discharge hole 150 can be in line and be arranged on the length direction of ice storage guider 100.

And, in embodiment, auxiliary discharge hole 150 can be formed between adjacent tap 120.In other words, discharge Hole 120 and the auxiliary discharge hole 150 being arranged on the length direction of ice storage guider 100 can be interlaced.

In this case, the water for flowing between tap 120 can be discharged by auxiliary discharge hole 150.

And, in embodiment, auxiliary discharge hole 150 can be separated from each other, and being oriented to jaw 160 can be formed at auxiliary discharge hole Between 150.

The water that being oriented to jaw 160 can project will to flow on rake 110 from rake 110 is oriented to auxiliary discharge hole 150。

In embodiment, as shown in Figure 7 to 9, when ice storage guider 100 is placed on bucket 230, it is oriented in ice storage Discharge seam can be formed between the upper end of the edge of device 100 and the inwall of bucket 230.

In other words, the width of the vertical width comparable bucket 230 of ice storage guider 100 is less, so as to can be Horizontal joint (discharging seam) is formed between the inwall of ice storage guider 100 and bucket 230.

The water for reaching the front end of ice storage guider 100 but discharging not over tap 120 and auxiliary discharge hole 150, Finally bucket 230 can be expelled to by discharging seam.

Direction protrusion 170 can be projected from the front end of ice storage guider 100 towards seam is discharged.

Direction protrusion 170 can be less than ice cube width be disposed on the length direction of ice storage guider 100.

Direction protrusion 170 can prevent ice cube from falling from seam is discharged.

The generally planar shape of above-mentioned ice storage guider 100, thus can be easy to cleaning.

Because the water flowed on the rake 110 of ice storage guider 100 can pass through tap 120, auxiliary discharge hole 150 discharge with seam is discharged, so water and ice can be completely separable, so as to prevent water from penetrating in refrigerator-freezer 240.

And, in embodiment, the front and rear of ice storage guider 100 can be symmetrical, so as to freeze to the past The ice that plate 210a and rear freezing plate 210b fall is oriented to.

As above, exemplary embodiment of the invention, because the modular construction of ice machine is simple cleaning is can be easy to, from And ice machine can be used wholesomely.

Additionally, embodiments in accordance with the present invention, the ice fallen from freezing plate and water can be separated from each other, so as to prevent water from flowing into In refrigerator-freezer, it is thus possible to reliably make high-quality ice.

Although exemplary embodiment having been illustrated and having been described above, those skilled in the art it should be clear that Under conditions of without departing substantially from the spirit and scope of the present invention limited in appended claims, various modifications and variations can be made.

Claims (9)

1. a kind of ice machine, including：

Freezing plate, is set to be cooled down to freeze the water flow through from the freezing plate by evaporimeter；

Bucket, is arranged under the freezing plate to collect the water flowed down from the freezing plate；

Refrigerator-freezer, forms ice storage area to collect the ice fallen from the freezing plate around the bucket；And

Tabular ice storage guider, is placed in the upper end of the bucket and between the freezing plate and the bucket, the storage Ice guider includes that the width ratio of the plurality of tap is by described towards the inclined rake of the refrigerator-freezer and multiple taps The width of the ice cube that freezing plate is formed is narrower；

Wherein, the ice storage guider further includes auxiliary discharge hole, and the auxiliary discharge hole is formed in the tap Before and separate with the tap；

Wherein, the auxiliary discharge hole is formed between the tap adjacent to each other.

2. ice machine as claimed in claim 1, wherein, the tap extends on the incline direction of the rake.

3. ice machine as claimed in claim 1, wherein, the ice storage guider further includes from rear side vertically to project And the ribs extended along its length direction.

4. ice machine as claimed in claim 1, wherein, end plate is provided with the two ends of the ice storage guider, so as to relative The main body of the ice storage guider is supported in the upper end of the bucket.

5. ice machine as claimed in claim 1, wherein, the length direction along the ice storage guider is provided at predetermined intervals Multiple auxiliary discharge holes；And

Guiding jaw is formed between the adjacent auxiliary discharge hole, so that the water that will be flowed on the rake is oriented to institute State auxiliary discharge hole.

6. ice machine as claimed in claim 1, wherein, when the ice storage guider is placed on the bucket, described Formed between the upper end of the inwall of one end of ice storage guider and the bucket and discharge seam.

7. ice machine as claimed in claim 6, wherein, the ice storage guider further includes to be formed at the rake Direction protrusion on one end.

8. ice machine as claimed in claim 1, wherein, the ice storage guider is further included on the side of the tap The ridge projected from the rake at edge.

9. ice machine as claimed in claim 1, wherein, the freezing plate includes front freezing plate and rear freezing plate, described front cold Freeze plate and the rear freezing plate respectively with two end in contact of the evaporimeter, and

The front and rear of the ice storage guider is symmetrical, so as to respectively to from the front freezing plate and the rear freezing plate The ice for falling is oriented to.