CN106766517A - For the door body and its heat dissipating method and refrigerating device of refrigerating device - Google Patents

Abstract

The invention provides a kind of door body and its heat dissipating method and refrigerating device for refrigerating device.The door body for being used for refrigerating device includes：For providing the display control component of display touch controllable function and for the heat dissipation wind channel for display control assembly radiating, wherein heat dissipation wind channel is configured to be turned on or off according to the controlled temperature of display control component.The present invention can determine the need for carrying out radiating treatment according to actual conditions, so as to both ensure that the radiating requirements of display control component, while also meeting the dust-proof needs to display control component, improve the job stability of display control component.

Description

For the door body and its heat dissipating method and refrigerating device of refrigerating device

Technical field

The present invention relates to freezing and refrigeration technology, more particularly to a kind of door body and its radiating side for refrigerating device Method and refrigerating device.

Background technology

With the fast development of modern society, people's living standard is increasingly improved, requirement of the people to various household electrical appliance Also more and more higher, various multi-functional household electrical appliance start to occur, the refrigerating device such as refrigerator, refrigerator-freezer it is also more intelligent and Variation, the past refrigerating device with simple display structure can not meet the demand of people.

Some refrigerating devices of the prior art are provided with the display control component for possessing display touch controllable function, display Control assembly is generally arranged in the door body of refrigerating device, however, the door body is usually lamellar part, being used for thereon Install display control component accommodating chamber be one relative to the space for comparing closing, display control component in the process of running can Substantial amounts of heat is produced, if heat can not be distributed in time, can cause very big to the service behaviour of display control component Influence.Existing radiating mode is by display control component or its installation site opens up louvre, but this radiating side Formula effect is very limited, and radiating rate is slower.

Additionally, in order to strengthen radiating effect, in the prior art also by a upper and lower or left side for the door body in refrigerating device Right both sides set the heat dissipation wind channel through door body end face, and display control component is radiated.The effect of this radiating mode compared with It is good, but inventors herein have recognized that, the refrigerating device radiated using this radiating mode, its display control component Job stability it is poor.

The content of the invention

One purpose of first aspect present invention is intended to overcome at least one defect of the prior art, there is provided one kind is used for The door body of the good heat dissipation effect of refrigerating device.

Another purpose of first aspect present invention is the job stability of display control component to be improved.

The purpose of second aspect present invention is to provide a kind of refrigerating device.

The purpose of third aspect present invention is to provide a kind of method that door body to refrigerating device is radiated.

According to the first aspect of the invention, there is provided a kind of door body for refrigerating device, including：For providing display The display control component of touch controllable function and for the heat dissipation wind channel for the display control assembly radiating, wherein

The heat dissipation wind channel is configured to be turned on or off according to the controlled temperature of the display control component.

Alternatively, wherein the heat dissipation wind channel is further configured to：When the temperature of the display control component rise to it is pre- If the first temperature threshold when controllably turn on.

Alternatively, wherein the heat dissipation wind channel is further configured to：It is down at a temperature of the display control component pre- If second temperature threshold value when controllably disconnect, wherein the second temperature threshold value be less than first temperature threshold.

Alternatively, the door body also includes：Temperature sensor, is configured to receive touch behaviour in the display control component The temperature of the display control component is detected after work；And

The heat dissipation wind channel is turned on or off with being further configured to the controlled temperature detected according to the temperature sensor.

Alternatively, wherein the display control component includes being shown for the touch of display information and reception touch operation Screen, provided for the back light member for the touch display screen backlight of power supply and the display to the touch display screen and The circuit board that touch information is processed；

The temperature of the temperature sensor detection is the temperature of the back light member or the temperature or described of the backlight The temperature of circuit board.

Alternatively, wherein being provided with throttle for radiator cooling in the heat dissipation wind channel, it is configured to according to the display control component It is turned on and off, with the heat dissipation wind channel that is turned on or off controlled temperature.

Alternatively, wherein the heat dissipation wind channel includes：

Top heat dissipation wind channel, it is connected and from the upper end of the accommodating chamber with the accommodating chamber for accommodating the display control component Extend upwardly to through the upper surface of the door body；With

Bottom heat dissipation wind channel, it connects with the accommodating chamber and is extended downward through described from the lower end of the accommodating chamber The lower surface of door body；

Wherein described throttle for radiator cooling is arranged on the top of the top heat dissipation wind channel.

According to the second aspect of the invention, a kind of refrigerating device is also provided, it includes：

Casing, defines the storage space for store things in it；And

Any of the above-described described door body, the door body is connected directly or indirectly to the casing, to open and/or close At least part of storage space.

According to the third aspect of the invention we, a kind of method that door body to refrigerating device is radiated also is provided, its Described in door body include：The display control component of touch controllable function is shown for providing and for being the display control assembly radiating Heat dissipation wind channel, and the heat dissipating method includes：

Temperature according to the display control component is turned on or off the heat dissipation wind channel.

Alternatively, methods described also includes：When the temperature of the display control component rises to default first temperature threshold The heat dissipation wind channel is turned on during value.

Alternatively, methods described also includes：Default second temperature threshold is down at a temperature of the display control component The heat dissipation wind channel is disconnected during value, wherein the second temperature threshold value is less than first temperature threshold.

Alternatively, methods described also includes：After the display control component receives touch operation, the display is obtained The temperature of control assembly.

Inventors herein have recognized that, for by setting the existing skill that heat dissipation wind channel is radiated to display control component Art, no matter whether display control component is in radiating, the opening of heat dissipation wind channel communicates with the external world, some so extraneous materials (such as dust) inevitably will enter inside door body, so as to influence the performance of display control component, and then cause display The job stability of control assembly is poor.The present invention is turned on or off heat dissipation wind channel by according to the temperature of display control component, Can be determined the need for carrying out radiating treatment according to actual conditions, so that the radiating requirements of display control component had both been ensure that, The dust-proof needs to display control component are also met simultaneously, improve the job stability of display control component.

According to the accompanying drawings to the detailed description of the specific embodiment of the invention, those skilled in the art will be brighter Of the invention above-mentioned and other purposes, advantages and features.

Brief description of the drawings

Describe some specific embodiments of the invention in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter. Identical reference denotes same or similar part or part in accompanying drawing.It should be appreciated by those skilled in the art that these What accompanying drawing was not necessarily drawn to scale.In accompanying drawing：

Fig. 1 is the schematic diagram of the door body for refrigerating device according to an embodiment of the invention；

Fig. 2 is the schematic section STRUCTURE DECOMPOSITION of the door body for refrigerating device according to an embodiment of the invention Figure；

Fig. 3 is the schematic structure exploded view of the door body for refrigerating device according to an embodiment of the invention；

Fig. 4 is another orientation schematic structure of the door body for refrigerating device according to an embodiment of the invention Figure；

Fig. 5 is the another orientation schematic structure of the door body for refrigerating device according to an embodiment of the invention Figure；

Fig. 6 is that the schematic side on the top of the door body for refrigerating device according to an embodiment of the invention is cutd open View；

Fig. 7 is the schematic front sectional view on the top of door body shown in Fig. 6, and wherein throttle for radiator cooling is closed；

Fig. 8 is the schematic front sectional view on the top of door body shown in Fig. 6, and wherein throttle for radiator cooling is in opening；

Fig. 9 is the schematic of the method that the door body to refrigerating device according to an embodiment of the invention is radiated Flow chart；

Figure 10 is the schematic diagram of refrigerating device according to an embodiment of the invention.

Specific embodiment

The embodiment of the present invention provides a kind of door body for refrigerating device first.The embodiment of the present invention for refrigerating The door body of refrigerating plant may include to show the display control component of touch controllable function for providing and for being that display is controlled in general manner The heat dissipation wind channel of assembly radiating processed.

Fig. 1 is the schematic diagram of the door body 1 for refrigerating device according to an embodiment of the invention, Fig. 2 It is the schematic section structure decomposition figure of the door body 1 for refrigerating device according to an embodiment of the invention.Referring to Fig. 1 To Fig. 2, the door body 1 for refrigerating device of the embodiment of the present invention may include panel 10, use for forming the front portion of door body 1 Door foaming component 20 in the display control component 30 for providing display touch controllable function and for forming the rear portion of door body 1.Door body The accommodating chamber for accommodating display control component 30 is defined between foamed assembly 20 and panel 10 and the accommodating chamber is connected With the heat dissipation wind channel of environment space, display control component 30 is contained in the accommodating chamber.Heat dissipation wind channel can with environment space it Between form air stream circulation, the heat that display control component 30 is produced can be distributed by heat dissipation wind channel, it is to avoid heat grain bin Product, so as to reduce the temperature around display control component 30.

Especially, the heat dissipation wind channel is configured to be turned on or off according to the controlled temperature of display control component 30.This hair It is bright to be turned on or off heat dissipation wind channel by according to the temperature of display control component 30, can be determined the need for according to actual conditions Radiating treatment is carried out, so that the radiating requirements of display control component 30 had both been ensure that, while also meeting to display control component 30 dust-proof needs, improve the job stability of display control component 30.

In certain embodiments, heat dissipation wind channel can be further configured to：When the temperature of display control component 30 rise to it is pre- If the first temperature threshold when controllably turn on.It will be understood by those skilled in the art that the first temperature alleged in the embodiment of the present invention Degree threshold value can be the temperature value of user or the designer sets itself according to actual conditions or experimental result.For example, first Temperature threshold can be 40 DEG C, 50 DEG C or 60 DEG C etc..When heat dissipation wind channel rises to the first temperature in the temperature of display control component 30 During degree threshold value after conducting, the temperature of usual display control component 30 can decline.Therefore, in certain embodiments, heat dissipation wind channel can It is further configured to：Controllably disconnected when default second temperature threshold value is down at a temperature of display control component 30.Equally Ground, second temperature threshold value mentioned here can also be that user or designer voluntarily set according to actual conditions or experimental result Fixed temperature value, its value is typically smaller than the first temperature threshold.For example, second temperature threshold value can be 10 DEG C, 15 DEG C or 20 DEG C Deng.

In certain embodiments, door body 1 may also include：Temperature sensor, is configured to be received in display control component 30 The temperature of display control component 30 is detected after touch operation.Correspondingly, heat dissipation wind channel can be further configured to according to TEMP It is turned on or off the controlled temperature of the display control component 30 of device detection.

In certain embodiments, throttle for radiator cooling 2631 is provided with heat dissipation wind channel, throttle for radiator cooling 2631 is configured to according to display It is turned on and off, with the heat dissipation wind channel that is turned on or off the controlled temperature of control assembly 30.

Specifically, the forward surface of door foaming component 20 is formed with groove 261 recessed backward, with panel 10 after Limit the accommodating chamber to be formed for accommodating display control component 30 jointly to surface.Display control component 30 is contained in accommodating chamber In, the front side of display control component 30 is attached at the backward surface of panel 10, rear side and the groove 261 of display control component 30 Gap is left between rear wall, to form the middle air channel for air circulation.

The forward surface of door foaming component 20 is also formed with being connected with groove 261 and through the upper of door foaming component 20 The upper grooves 263 of end face and connected with groove 261 and through the lower recess 262 of the lower surface of door foaming component 20.On Portion's groove 263 is limited to be formed and connected with the accommodating chamber for accommodating display control component 30 and from institute jointly with the backward surface of panel 10 The upper end for stating accommodating chamber extends upwardly to top heat dissipation wind channel through the upper surface of door body 1.Lower recess 262 and panel 10 Backward surface limits to be formed and is connected and downward from the lower end of the accommodating chamber with the accommodating chamber for accommodating display control component 30 jointly Extend to the bottom heat dissipation wind channel through the lower surface of door body 1.Top heat dissipation wind channel, middle air channel and bottom heat dissipation wind channel are common The heat dissipation wind channel that formation runs through up and down.

In a further embodiment, during throttle for radiator cooling 2631 may be provided at top heat dissipation wind channel, it is more particularly set on The top of portion's heat dissipation wind channel, when throttle for radiator cooling 2631 is closed, to stop dust of external environment condition etc. via top heat dissipation wind channel Into in foregoing accommodating chamber, display control component 30 is had undesirable effect.

In certain embodiments, top heat dissipation wind channel may include multiple interval settings and the sub- wind connected with foregoing accommodating chamber Road.For example, top heat dissipation wind channel may include the sub-air channels such as two, three or four.One can be respectively provided with each sub-air channel Throttle for radiator cooling 2631, each throttle for radiator cooling 2631 can be configured to be opened or closes according to the controlled temperature of display control component 30 Close, with its corresponding sub-air channel that is turned on or off.That is, in the case where the quantity of heat dissipation wind channel is for multiple, can basis The temperature of display control component 30 controls being turned on and off for throttle for radiator cooling 2631 in each heat dissipation wind channel simultaneously.

Fig. 3 is the schematic structure exploded view of the door body 1 for refrigerating device according to an embodiment of the invention. Referring to Fig. 3, in some embodiments of the invention, door foaming component 20 may include the front and rear front door lining 21 being arranged in order with after Door serves as a contrast 22, is for respectively forming the upper surface of door foaming component 20 and the upper panel 23 of lower surface and lower panel 24 and difference Two side frames 25 for forming the both lateral sides of door foaming component 20, front door lining 21, back door lining 22, upper panel 23, under Insulating foam layer (not shown) is formed between panel 24 and two side frames 25.That is, front door lining 21, back door Serve as a contrast 22, can be fixed on one by way of clamping or mode connects for screw between upper panel 23, lower panel 24 and two side frames 25 Rise, and define foaming space therebetween, foaming is formed with the insulating foam layer for insulation in the foaming space.Enter One step ground, groove 261, upper grooves 263 and lower recess 262 may be formed at the forward surface of front door lining 21.

In certain embodiments, panel 10 can be the glass panel of whole clearing.In some alternate embodiments, face Plate 10 can also be the nontransparent panel with transparent window, and display control component 30 is just to the transparency window of the nontransparent panel Mouthful.Display control component 30 can in advance be fixed on the backward surface of panel 10 by way of gluing, then will be fixed with again aobvious Show that the panel 10 of control assembly 30 is assembled on door foaming component 20, so as to complete the assembling of door body 1.

In certain embodiments, referring to Fig. 3, display control component 30 includes for display information and receives touch operation Touch display screen 31, the backlight 32 of power supply is provided for the back light member (not shown) for touch display screen 31, is used for Circuit board 34 that display and touch information to touch display screen 31 are processed, for supporting touch display screen 31, backlight 32 and the installation grillage 33 of circuit board 34.In the running of display control component 30, back light member, backlight 32 and Circuit board 34 can produce substantial amounts of heat.Temperature sensor 110 may be provided in foregoing accommodating chamber, and it is configured to detect backlight The temperature of the temperature of element or the temperature of backlight 32 or circuit board 34, as the temperature of display control component 30.

Fig. 4 is another orientation schematic diagram of door body according to an embodiment of the invention 1, and Fig. 5 is according to this hair The another orientation schematic diagram of the door body 1 of bright one embodiment.In certain embodiments, referring to Fig. 4 and Fig. 5, upper panel 23 and lower panel 24 on can offer respectively the opening 231 that is connected with top heat dissipation wind channel and with opening that bottom heat dissipation wind channel is connected Mouth 241.The quantity of opening 231 can be identical with the quantity of sub-air channel, i.e., each sub-air channel corresponds to an opening 231.Opening 241 quantity can be one；Or multiple is alternatively, multiple opening 241 is uniformly distributed.

In certain embodiments, throttle for radiator cooling 2631 can be also provided with the heat dissipation wind channel of bottom, it is also arranged to according to aobvious Show control assembly 30 controlled temperature be turned on and off, with the bottom heat dissipation wind channel that is turned on or off.

Fig. 6 is the schematic side on the top of the door body 1 for refrigerating device according to an embodiment of the invention Sectional view；Fig. 7 is the schematic front sectional view on the top of door body 1 shown in Fig. 6, and wherein throttle for radiator cooling 2631 is in and closes shape State；Fig. 8 is the schematic front sectional view on the top of door body 1 shown in Fig. 6, and wherein throttle for radiator cooling 2631 is in opening.Ginseng See Fig. 6 to Fig. 8, throttle for radiator cooling 2631 may be provided at opening 231, that is, be arranged on the top of top heat dissipation wind channel.Specifically, on Panel 23 can be respectively formed chute in both sides before and after opening 231.Throttle for radiator cooling 2631 includes horizontally disposed bottom wall, from the bottom wall The side wall that upwardly extends of rear and front end and the flange that extends towards relative sidewall horizontal from the upper end of each side wall, radiating Each flange of air door 2631 is slidably disposed in the corresponding chute of panel 23.Further, door body 1 may also include and set Put the guide rail 280 on the bottom wall of throttle for radiator cooling 2631 and the motor 290 for driving the transverse shifting of guide rail 280.Motor 290 passes through The transverse shifting of guide rail 280 is driven so as to realize the unlatching and/or closing of throttle for radiator cooling 2631.Motor 290 can be configured to according to aobvious Show control assembly 30 controlled temperature drive the transverse shifting of guide rail 280, throttle for radiator cooling 2631 is opened and/or closed.

Based on same inventive concept, the embodiment of the present invention additionally provides a kind of door body 1 to refrigerating device and dissipates The method of heat, is radiated with using the method to the door body 1 of any of the above embodiment.The method includes：According to display control The temperature of component 30 is turned on or off the heat dissipation wind channel.Heat dissipating method of the invention is by the temperature according to display control component 30 The heat dissipation wind channel that is turned on or off is spent, can be determined the need for carrying out radiating treatment according to actual conditions, so as to both ensure that aobvious Show the radiating requirements of control assembly 30, while also meeting the dust-proof needs to display control component 30, improve display control The job stability of component 30.

In a further embodiment, the method also includes：When the temperature of display control component 30 rises to default The heat dissipation wind channel is turned on during one temperature threshold.In a still further embodiment, the method also includes：Turning on the radiating Behind air channel, the heat dissipation wind channel is disconnected when default second temperature threshold value is down at a temperature of display control component 30, wherein Second temperature threshold value is less than the first temperature threshold.

Fig. 9 is the signal of the method that the door body 1 to refrigerating device according to an embodiment of the invention is radiated Property flow chart.Referring to Fig. 9, the method can include in general manner：

Step S902：Judge whether display control component 30 receives touch operation, if so, then performing step S904 successively With step S906.If display control component 30 receives touch operation, display control component 30 brings into operation, and its temperature can be by Edge up height.

Step S904：Obtain the temperature of display control component 30.

Step S906：Judge whether the temperature of display control component 30 rises to the first temperature threshold, if so, then holding successively Row step S908 and step S910；If it is not, not operating then, now, heat dissipation wind channel is off.

Step S908：Conducting heat dissipation wind channel.After heat dissipation wind channel is turned on, the temperature of display control component 30 would generally be gradually Decline.

Step S910：Judge whether the temperature of display control component 30 drops to second temperature threshold value, if so, then performing step Rapid S912；If it is not, not operating then, now, heat dissipation wind channel is in the conduction state.

Step S912：Disconnect heat dissipation wind channel.

That is, after display control component 30 receives touch operation, obtaining the temperature of display control component 30.This When, display control component 30 brings into operation, and its temperature can gradually rise.When the temperature of display control component 30 rises to the first temperature During degree threshold value, heat dissipation wind channel is turned on.Afterwards, the temperature of display control component 30 would generally be gradually reduced.When display control component When second temperature threshold value is dropped at a temperature of 30, heat dissipation wind channel is disconnected, stopping carries out free convection to display control component 30 and dissipates Heat.

The present invention also provides a kind of refrigerating device, and Figure 10 is refrigerating device according to an embodiment of the invention 3 schematic diagram.Referring to Figure 10, refrigerating device 3 of the invention includes：Casing 2, defines for deposit in it The storage space of product；And the door body 1 described in any of the above-described embodiment.Door body 1 is connected directly or indirectly to casing 2, with Open and/or close at least part of storage space.

Specifically, refrigerating device 3 includes but is not limited to the refrigerator on common or conversational implication, also including refrigerator-freezer, cold The common device such as cabinet, the device also including other with refrigeration and/or freezing function.By taking refrigerator as an example, refrigerating device 3 Can be simple gate refrigerator, or multi-door refrigerator, such as side by side combination refrigerator.When refrigerating device 3 is multi-door refrigerator, door Body 1 can be wherein any one door body.

Refrigerating device 3 involved by the embodiment of the present invention can have compression refrigerating system, semiconductor refrigeration system or Other suitable refrigeration systems, cold is provided with for the storage space in its casing 2 so that the storage space Keep cool, Freezing or the storage condition of other specific conditions.

It should also be understood by those skilled in the art that alleged in the embodiment of the present invention " on ", D score, " perpendicular ", " horizontal stroke ", " preceding ", " afterwards ", " top ", " bottom " etc. are actually making with door body 1 and refrigerating device 3 for representing the term in orientation or position relationship For on the basis of state, these terms are for only for ease of description and understand technical scheme, rather than instruction Or imply that the device or part of meaning with specific orientation, with specific azimuth configuration and operation, therefore must not be understood that It is limitation of the present invention.

So far, although those skilled in the art will appreciate that detailed herein have shown and described multiple of the invention and show Example property embodiment, but, without departing from the spirit and scope of the present invention, still can be direct according to present disclosure It is determined that or deriving many other variations or modifications for meeting the principle of the invention.Therefore, the scope of the present invention is understood that and recognizes It is set to and covers all these other variations or modifications.

Claims (12)

1. a kind of door body for refrigerating device, including：Display control component and use for providing display touch controllable function In the heat dissipation wind channel for the display control assembly radiating, wherein

The heat dissipation wind channel is configured to be turned on or off according to the controlled temperature of the display control component.

2. door body according to claim 1, wherein the heat dissipation wind channel is further configured to：When the display control component Temperature controllably turn on when rising to default first temperature threshold.

3. door body according to claim 2, wherein

The heat dissipation wind channel is further configured to：Default second temperature threshold value is down at a temperature of the display control component When controllably disconnect, wherein the second temperature threshold value be less than first temperature threshold.

4. door body according to claim 1, also includes：Temperature sensor, is configured to be received in the display control component The temperature of the display control component is detected after to touch operation；And

The heat dissipation wind channel is turned on or off with being further configured to the controlled temperature detected according to the temperature sensor.

5. door body according to claim 4, wherein the display control component includes being touched for display information and receiving The touch display screen of operation, the backlight that power supply is provided for the back light member for the touch display screen and to the touch The circuit board that the display of display screen and touch information are processed；

The temperature of the temperature sensor detection is the temperature of the back light member or the temperature of the backlight or the circuit The temperature of plate.

6. door body according to claim 1, wherein being provided with throttle for radiator cooling in the heat dissipation wind channel, is configured to according to described It is turned on and off, with the heat dissipation wind channel that is turned on or off the controlled temperature of display control component.

7. door body according to claim 6, wherein the heat dissipation wind channel includes：

Top heat dissipation wind channel, it is connected and upward from the upper end of the accommodating chamber with the accommodating chamber for accommodating the display control component Extend to through the upper surface of the door body；With

Bottom heat dissipation wind channel, it connects with the accommodating chamber and is extended downward through the door body from the lower end of the accommodating chamber Lower surface；

Wherein described throttle for radiator cooling is arranged on the top of the top heat dissipation wind channel.

8. a kind of refrigerating device, including：

Casing, defines the storage space for store things in it；And

Door body according to any one of claim 1 to 7, the door body is connected directly or indirectly to the casing, with Open and/or close at least partly storage space.

9. a kind of method that door body to refrigerating device is radiated, wherein the door body includes：Touched for providing display Control the display control component of function and for the heat dissipation wind channel for the display control assembly radiating, and the heat dissipating method bag Include：

Temperature according to the display control component is turned on or off the heat dissipation wind channel.

10. method according to claim 9, also includes：When the temperature of the display control component rises to default The heat dissipation wind channel is turned on during one temperature threshold.

11. methods according to claim 10, also include：Default is down at a temperature of the display control component The heat dissipation wind channel is disconnected during two temperature thresholds, wherein the second temperature threshold value is less than first temperature threshold.

12. methods according to claim 9, also include：After the display control component receives touch operation, obtain The temperature of the display control component.