CN205351927U - Ice maker and refrigerator - Google Patents

Abstract

The utility model belongs to the technical field of refrigerator system ice, a ice maker and refrigerator is disclosed, the ice machine includes: support, system ice tray and play ice motor go out the ice motor and install on the support, and system ice tray and play ice motor drive are connected, the inside cavity that is equipped with of support, system ice tray is located the cavity, is equipped with air inlet department and at least one air -out department on the lateral wall of support, and air inlet department is used for guiding the cold air process system ice tray's upper surface. Compared with the prior art, the utility model discloses the progress that is showing below the existence: 1, under the same condition, can make more ice -cubes, the system ice volume of unit interval is big, 2, under the same condition, can not produce the condition that the frost blockked up, 3, under the same system ice technical scheme condition, system ice cost is lower.

Description

A kind of ice machine and refrigerator

Technical field

This utility model relates to refrigerator ice-making technical field, particularly to a kind of ice machine and refrigerator.

Background technology

Existing Chinese patent 201120468430.8 discloses the ice machine of a kind of refrigerator, and this ice machine includes suspension bracket, drive motor, ice exploration bar, ice box, also includes the air channel formed by cavity in suspension bracket.Wherein air channel is provided with air intake place and wind outlet, is additionally provided with the catch for cold wind being directed to ice box.Cold wind is from air intake entrance air channel, and the guiding through catch is blowed to ice box by wind outlet.

In the program, cold wind needs just to blow to ice box through air intake place, air channel, catch, wind outlet, the particularly setting of baffle plate, make the barrier between air intake place and ice box more, so can form windage, cause that the overall air quantity being fed to ice box reduces, cold wind utilization rate is substantially reduced, the speed that water in ice box forms ice cube is slowed down, and ice making efficiency is low, it is impossible to meet user demand.

Utility model content

(1) to solve the technical problem that

The technical problems to be solved in the utility model is: the barrier for solving between air intake place and the ice box of existing ice machine is more, so can form windage, cause that the overall air quantity being fed to ice box reduces, cold wind utilization rate is substantially reduced, the speed that water in ice box forms ice cube is slowed down, ice making efficiency is low, it is impossible to the problem meeting user demand.

(2) technical scheme

In order to solve above-mentioned technical problem, this utility model provides a kind of ice machine, including support, ice box and go out ice motor, described in go out ice motor and install on the bracket, one end of described ice box with described go out the driving of ice motor be connected to realize out ice；

Described internal stent is provided with cavity, described ice box is positioned at described cavity, the sidewall of described support is provided with the air intake place and at least one wind outlet that connect respectively with described cavity, described air intake place is used for the direct cold air upper surface through described ice box, from the entrance of described air inlet to described ice box, described cold air flow direction in the horizontal direction remains unchanged.

Wherein, described support includes front panel, rear board and top board, and the two ends of described top board are connected to described front panel top and rear board top；The front end of described ice box and described front panel are rotationally connected, described in go out ice motor and be arranged on described rear board；Described air intake place is arranged on described front panel, the open region of the described support left and right sides respectively the first wind outlet, the second wind outlet.

Wherein, described support is positioned at the region below described ice box is open design.

Wherein, described top board is provided with guide vane, and the upper end of described guide vane is connected with described top board, and the lower end of described guide vane is towards described ice box, and described guide vane for guiding described ice box into by cold air.

Wherein, described guide vane is arranged on the front end of described top board.

Wherein, described top board is provided with multiple guide vane, and multiple guide vane intervals are arranged；Along the direction away from described air intake place, the distance between lower end and the described ice box of multiple guide vanes shortens successively.

A kind of refrigerator, including storeroom, is provided with air duct cover board, described air duct cover board is provided with ice machine as above in described storeroom；Described support is connected with described air duct cover board, and described air duct cover board is provided with the air port connected with described air intake place, and described air port is for passing into described air intake place by the cold air of described air duct cover board opposite side.

Wherein, described storeroom is refrigerating chamber.

(3) beneficial effect

Technique scheme has the advantage that ice machine described in the utility model, any barrier is not all had between ice box therein and air intake place, wind outlet, flow of cold air process does not have any stop, from the entrance of described air inlet to described ice box, described cold air flow direction in the horizontal direction remains unchanged, almost without wind loss in air intake process, can farthest utilize the air quantity of wind outlet, the speed of water congeals into ice block is faster, whole ice making cycle shortens, and improves ice making efficiency；Cold wind directly skims over the ice cube surface of ice box, and Negotiation speed is than very fast, and the speed difference of in each little ice tray in ice box, water congeals into ice block is little；The left and right sides of support is completely unlimited, it does not have any stop, and the phenomenon of a large amount of frosting not easily occurs everywhere in air-out, it is possible to carry out rapid ice making operation for a long time；Cold air is skimming over the speed of ice box upper surface；Cold air after heat exchange can quickly leave ice box, will not hinder the cold air of new inflow and contacting of ice box, substantially increase efficiency；The setting of guide vane makes wind energy skim over each ice tray uniformly, reduces the formation speed difference of ice cube in each ice tray.This ice machine it is provided with, it is possible to use the low temperature environment in refrigerator storeroom improves ice-making effect further in refrigerator described in the utility model.

Accompanying drawing explanation

Fig. 1 is the use view of ice machine described in the utility model；

Fig. 2 is the axonometric chart of ice machine described in the utility model；

Fig. 3 is the top view of ice machine described in the utility model；

Fig. 4 is that the B-B of Fig. 3 is to sectional view；

Fig. 5 is that the A-A of Fig. 3 is to sectional view.

Wherein, 1, air duct cover board；1-1, air port；2, support；2-1, guide vane；2-2, the first wind outlet；2-3, the second wind outlet；3, ice box；4, ice exploration bar；5, ice motor is gone out.

Detailed description of the invention

Below in conjunction with drawings and Examples, detailed description of the invention of the present utility model is described in further detail.Following example are used for illustrating this utility model, but are not limited to scope of the present utility model.

In description of the present utility model, it is necessary to explanation, except as otherwise noted, " multiple " are meant that two or more；Term " on ", D score, "left", "right", " interior ", " outward ", " front end ", " rear end ", " head ", the orientation of the instruction such as " afterbody " or position relationship be based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " first ", " second ", " the 3rd " etc. are only for descriptive purposes, and it is not intended that indicate or hint relative importance.

In description of the present utility model, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be removably connect, or connect integratedly；Can be mechanically connected, it is also possible to be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary.For the ordinary skill in the art, visual concrete condition understands above-mentioned term concrete meaning in this utility model.

Embodiment one:

As shown in Figure 2-5, this utility model discloses a kind of ice machine, including support 2, ice box 3 and go out ice motor 5, described in go out ice motor 5 and be arranged on described support 2, one end of described ice box 3 with described go out ice motor 5 driving be connected to realize out ice；Described support 2 is internal is provided with cavity, described ice box 3 is positioned at described cavity, the sidewall of described support 2 is provided with the air intake place and at least one wind outlet that connect respectively with described cavity, described air intake place is used for the direct cold air upper surface through described ice box 3, from the entrance of described air inlet to described ice box 3, described cold air flow direction in the horizontal direction remains unchanged.Preferably, described ice box 3 is positioned on the bearing of trend of described air inlet, cold air from air inlet out after directly blow to ice box 3.

Support 2 is the installation immobilizing foundation of whole ice machine, is mainly used to install out ice motor 5, ice box 3 and form cavity, and cavity is used for holding ice box 3 and for cold air circulation.The lower limb at air intake place is relative with the upper surface of ice box 3, cold air passes through from ice box 3 upper surface after coming in from air intake, directly discharge from wind outlet after completing heat exchange, barrier is not had between air inlet and ice box 3, flow of cold air process does not have any stop, from the entrance of described air inlet to described ice box 3, described cold air flow direction in the horizontal direction remains unchanged, almost without wind loss in air intake process；This structure can farthest utilize the air quantity that air inlet enters, and the amount of the cold wind passed through in the unit interval is relatively big, and the heat taken away also compares many, and faster, whole ice making cycle shortens the speed of in such ice box 3, water congeals into ice block, improves ice making efficiency.Directly skim over the ice cube surface of ice box 3 because of cold wind, Negotiation speed is than very fast, and the speed difference of in each little ice tray in ice box 3, water congeals into ice block is little, substantially reduces the icing rate of the little ice tray of distance air intake place distalmost end, shortens ice making cycle simultaneously.

Concrete, described support 2 includes front panel, rear board and top board, and the two ends of described top board are connected to described front panel top and rear board top；The front end of described ice box 3 and described front panel are rotationally connected, described in go out ice motor 5 and be arranged on described rear board；Described air intake place is arranged on described front panel, the open region of described support 2 left and right sides respectively the first wind outlet 2-2, the second wind outlet 2-3.

During rapid ice making, skim over the water surface because of Wind Volume, substantial amounts of frost can be produced, if air-out has obstruction thing everywhere, these frosts can be bonded on obstruction thing, because frost is too many, the various situations such as the frost produced is more than what melt, so can cause for a long time and outlet obstruction, and ice making is abnormal.Therefore, as shown in Figures 3 and 5, the left and right sides of support 2 described in the utility model is completely unlimited, cold air is directly discharged from the first wind outlet 2-2 or the second wind outlet 2-3 after ice box 3 upper surface, any stop is not had between ice box 3 and the first wind outlet 2-2, the second wind outlet 2-3, not easily there is the phenomenon of a large amount of frosting everywhere in air-out, it is possible to carry out rapid ice making operation for a long time；Cold air after heat exchange can speed away ice box 3, will not hinder the cold air of new inflow and contacting of ice box 3, and heat exchange effect is good, substantially increases efficiency.

Further, described support 2 is positioned at the region below described ice box 3 is open design.Leave the bottom that around the cold air of ice box 3 or ice box 3, original cold air can continue with ice box 3 and carry out heat exchange, be conducive to improving ice making efficiency.

Preferably, described rear board is provided with the 3rd wind outlet.Namely below on plate above corresponding ice box 3 region of cavity offer the 3rd wind outlet, the lower limb of the 3rd wind outlet is relative with the upper surface of ice box 3 or upper surface slightly below ice box 3, to facilitate cold air quickly to discharge, it is prevented that frosting.

Further, described top board is provided with guide vane 2-1, and the upper end of described guide vane 2-1 is connected with described top board, and the lower end of described guide vane 2-1 is towards described ice box 3, and described guide vane 2-1 for guiding described ice box 3 into by cold air.Top board between ice box 3 to air intake place increases one or more air guide member, makes wind energy skim over each ice tray uniformly.

Preferably, as it is shown in figure 5, described guide vane 2-1 is arranged on the front end of described top board.Cold air from air intake enter time, the flow direction of upper air can be guided as oliquely downward to flow by guide vane 2-1, it is possible to prevents the cold air on top to be directly over and be not involved in heat exchange, increases the contact probability of cold air and ice box 3, raising ice making efficiency.

Preferably, described top board is provided with multiple guide vane 2-1, and multiple guide vane 2-1 intervals are arranged；Along the direction away from described air intake place, the distance between lower end and the described ice box 3 of multiple guide vane 2-1 shortens successively.If only arranging guide vane 2-1 in top board front end, being then unfavorable for the ice making of follow-up little ice tray, cold air is not easy to flow to follow-up ice tray；Therefore it is provided with the guide vane 2-1 that multiple length is gradually increased and/or is gradually increased with top board angle, the cold air on cavity top is guided to ice box 3 direction gradually, increase the contact probability of cold air and ice box 3 so that flow through each ice tray；Cold air amount reaches unanimity, and reduces the formation speed difference of ice cube in each ice tray.

Go out ice motor and be connected to ice exploration bar 4, going out ice driven by motor ice exploration bar 4 and downwardly turn over and whether store up with ice detection full, if detecting the ice cube made enough, then suspending ice making.

Embodiment two:

The present embodiment discloses a kind of refrigerator, including storeroom, is provided with air duct cover board 1, described air duct cover board 1 is provided with the ice machine as described in embodiment one in described storeroom；Described support 2 is connected with described air duct cover board 1, and described air duct cover board 1 is provided with the air port 1-1 connected with described air intake place, described air port 1-1 for the cold air of described air duct cover board 1 opposite side is passed into described air intake place.After cold wind in refrigerator arrives air-duct clapboard opposite side, enter storeroom to realize refrigeration through air port 1-1；After ice machine is arranged on air duct cover board 1,1-1 cold air out in air port is directly entered air intake and sentences and realize ice making, flows out the cold air of ice machine and enters storeroom and realize the refrigeration to cold room.

Preferably, as it is shown on figure 3, ice machine realizes adding water by the window offered on its top board, water inlet pipe is added water in ice box 3 by this window after passing from storeroom top, and after ice machine is installed, this window is stored the top of room and blocks, and forms enclosed construction；Water inlet pipe only has end to stretch out, and without influence on the flowing of cold air, and is conducive to the circulation of cold air.

Further, described storeroom is refrigerating chamber.The low temperature environment of refrigerating chamber is conducive to raising ice making efficiency further.

The structure of this utility model design is not because having the obstruction of excessive parts between wind outlet to ice box 3, can farthest utilize the air quantity of wind outlet, ice box 3 both sides do not have any obstruction simultaneously, the speed that wind skims over is also quickly, the speed of in such ice box 3, water congeals into ice block is faster, whole ice making cycle shortens, and improves the ice making total amount of a day.Directly skim over the ice cube surface of ice box 3 because of wind, the speed difference of in each little ice tray in ice box 3, water congeals into ice block is little simultaneously.

As can be seen from the above embodiments, any barrier is not all had between ice box 3 described in the utility model and air intake place, wind outlet, flow of cold air process does not have any stop, from the entrance of described air inlet to described ice box 3, described cold air flow direction in the horizontal direction remains unchanged, almost without wind loss in air intake process, can farthest utilize the air quantity of wind outlet, faster, whole ice making cycle shortens the speed of water congeals into ice block, improves ice making efficiency；Cold wind directly skims over the ice cube surface of ice box 3, and Negotiation speed is than very fast, and the speed difference of in each little ice tray in ice box 3, water congeals into ice block is little；The left and right sides of support 2 is completely unlimited, it does not have any stop, and the phenomenon of a large amount of frosting not easily occurs everywhere in air-out, it is possible to carry out rapid ice making operation for a long time；Cold air is skimming over the speed of ice box 3 upper surface；Cold air after heat exchange can quickly leave ice box 3, will not hinder the cold air of new inflow and contacting of ice box 3, substantially increase efficiency；The setting of guide vane 2-1 makes wind energy skim over each ice tray uniformly, reduces the formation speed difference of ice cube in each ice tray.This ice machine it is provided with, it is possible to use the low temperature environment in refrigerator storeroom improves ice-making effect further in refrigerator described in the utility model.

Generally speaking, compared to prior art, this utility model exists following significant progressive:

1, under the same conditions, it is possible to make more ice cube, the ice-making capacity of unit interval is big；

2, under the same conditions, the situation of frost blocking will not be produced；

3, when identical ice-making technology scheme, ice making is lower in cost.

The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the premise without departing from this utility model know-why; can also making some improvement and replacement, these improve and replace and also should be regarded as protection domain of the present utility model.

Claims (8)

1. an ice machine, it is characterised in that including: support, ice box and go out ice motor, described in go out ice motor and install on the bracket, one end of described ice box with described go out the driving of ice motor be connected to realize out ice；

Described internal stent is provided with cavity, described ice box is positioned at described cavity, the sidewall of described support is provided with the air intake place and at least one wind outlet that connect respectively with described cavity, described air intake place is used for the direct cold air upper surface through described ice box, from the entrance of described air inlet to described ice box, described cold air flow direction in the horizontal direction remains unchanged.

2. ice machine as claimed in claim 1, it is characterised in that described support includes front panel, rear board and top board, and the two ends of described top board are connected to described front panel top and rear board top；The front end of described ice box and described front panel are rotationally connected, described in go out ice motor and be arranged on described rear board；Described air intake place is arranged on described front panel, the open region of the described support left and right sides respectively the first wind outlet, the second wind outlet.

3. ice machine as claimed in claim 2, it is characterised in that it is open design that described support is positioned at the region below described ice box.

4. ice machine as claimed in claim 2, it is characterised in that described top board is provided with guide vane, and the upper end of described guide vane is connected with described top board, the lower end of described guide vane is towards described ice box, and described guide vane for guiding described ice box into by cold air.

5. ice machine as claimed in claim 4, it is characterised in that described guide vane is arranged on the front end of described top board.

6. ice machine as claimed in claim 4, it is characterised in that described top board is provided with multiple guide vane, and multiple guide vane intervals are arranged；Along the direction away from described air intake place, the distance between lower end and the described ice box of multiple guide vanes shortens successively.

7. a refrigerator, it is characterised in that include storeroom, is provided with air duct cover board in described storeroom, described air duct cover board is installed just like the ice machine described in any one of claim 1-6；Described support is connected with described air duct cover board, and described air duct cover board is provided with the air port connected with described air intake place, and described air port is for passing into described air intake place by the cold air of described air duct cover board opposite side.

8. refrigerator as claimed in claim 7, it is characterised in that described storeroom is refrigerating chamber.