CN107036357B - A kind of ice-making component of refrigerator and refrigerator with it - Google Patents

Abstract

The present invention provides the ice-making component of kind of refrigerator, and the refrigerator includes: cabinet, and the cabinet is provided with storage compartment, the evaporator for refrigeration and the condenser for heat dissipation；Door body, for opening and closing the storage compartment；The ice-making component includes being set to the intracorporal ice making box of the door, and ice making box can be disconnected to by heat pipe is connected to the evaporator, and ice making box can be disconnected to by heat pipe is connected to the condenser.When ice making box is connected to evaporator by heat pipe, so that it may so that the water freezing in ice making box, that is, make ice；When ice making box is connected to condenser by heat pipe, so that it may which completion deices process.The ice-making component, not only it is fast but also low in cost to deice speed for ice making.

Description

A kind of ice-making component of refrigerator and refrigerator with it

Technical field

The present invention relates to the ice-making component of technical field of refrigeration equipment more particularly to a kind of refrigerator and with its refrigerator.

Background technique

As the improvement of people's living standards, many users, which are intended to refrigerator, has the function of ice making.For the ease of user Use, usually ice-making component is set on refrigerator door, then, how to provide cooling capacity and heat for ice-making component just becomes The problem of designer must be taken into consideration.In the prior art, it generallys use such as under type and realizes ice making: (1) by individual Air duct makes ice the ice-making component that the cold wind for storing compartment (for example, freezing chamber) or evaporator is imported into door body, this side Formula is not only at high cost, and cold wind is imported into ice-making component and needs to spend longer time；(2) individually increase on ice-making component A set of ice-making system makes ice, and can greatly improve cost in this way.It generallys use and is deiced such as under type to realize: (1) using electricity Heating method, this is not only at high cost, and is possible to will cause storage room heating；(2) using nature melt mode, this meeting so that It is long to deice process the time it takes.

Therefore, design it is a kind of low in cost, and can the ice-making component that deices of rapid ice making become one it is urgently to be resolved Problem.

Summary of the invention

The object of the invention is that provide it is a kind of low in cost, and being capable of the ice-making component that deices of rapid ice making.

One of in order to achieve the above-mentioned object of the invention, one embodiment of the invention provides a kind of ice-making component of refrigerator, described Refrigerator includes: cabinet, and the cabinet is provided with storage compartment, the evaporator for refrigeration and the condenser for heat dissipation；Door body, For opening and closing the storage compartment；The ice-making component includes being set to the intracorporal ice making box of the door, the evaporation At least one heat exchanger tube of device is directed at the doorframe of the cabinet；The heat pipe is divided into two parts of flexible connection, and first It is attached partially to the ice making box, second part is directed at the doorframe relative to the heat exchanger tube of the door body, and is worked as Door body close when, second part can contact the heat exchanger tube and in the dew removing tube at the doorframe of the cabinet it is any, Synchronization, ice making box only can connect to any one in the evaporator and condenser.

As the further improvement of embodiment of the present invention, ice making box is made of metal material, and periphery is wound with heat pipe.

As the further improvement of embodiment of the present invention, the heat pipe is divided into two parts of flexible connection, comprising: described The first part of heat pipe is flexibly connected by the first rotational structure with the middle part of second part.

As the further improvement of embodiment of the present invention, the ice making box is made of metal material.

As the further improvement of embodiment of the present invention, the ice making box periphery is wound with heat pipe.

As the further improvement of embodiment of the present invention, the storage that is additionally provided in door body below the ice making box Icehouse.

As the further improvement of embodiment of the present invention, the ice making box side is connected to heat by the second rotational structure Pipe, the other side are equipped with closeable opening.

One embodiment of the invention additionally provides a kind of ice-making component of refrigerator, and the refrigerator includes: cabinet, and the cabinet is set It is equipped with storage compartment, the evaporator for refrigeration and the condenser for heat dissipation；Door body, for opening and closing between the storage Room；The ice-making component includes being set to the intracorporal ice making box of the door, ice making box can be disconnected to by heat pipe be connected to it is described Evaporator, ice making box can be disconnected to by heat pipe is connected to the condenser, and in synchronization, ice making box only can connect to described Any one in evaporator and condenser；The storage chamber being additionally provided in door body below the ice making box, the system Ice chest side is connected to heat pipe by the second rotational structure, and the other side is equipped with closeable opening.

As the further improvement of embodiment of the present invention, the ice making box can be disconnected to by heat pipe is connected to the steaming Send out device, comprising: at least one heat exchanger tube of the evaporator is directed at the doorframe of the cabinet, and one end of the heat pipe connects It is connected to the ice making box, the other end is directed at the doorframe relative to the heat exchanger tube of the door body, when door body is closed, The heat pipe can contact the heat exchanger tube.

One embodiment of the invention additionally provides a kind of refrigerator, and the refrigerator includes: cabinet, and the cabinet is provided between storage Room, the evaporator for refrigeration and the condenser for heat dissipation；Door body, for opening and closing the storage compartment；Including upper State described in any item ice-making components.

Compared with the existing technology, the technical effects of the invention are that: in the present invention, when ice making box is connected to by heat pipe When the evaporator, so that it may make ice；When ice making box is connected to the condenser by heat pipe, so that it may deice.Because hot Pipe has fabulous heating conduction, therefore the process that ice making deices is quickly, and in the invention, is only additionally arranged heat pipe, thus It not will increase too many cost, i.e., it is low in cost.

Detailed description of the invention

Fig. 1 is the side view of the refrigerator in the embodiment of the present invention one；

The schematic diagram of the working condition of refrigerator when Fig. 2 is the ice making in the embodiment of the present invention one；

Fig. 3 is the schematic diagram of the working condition of refrigerator when deicing in the embodiment of the present invention one；

Fig. 4 is the schematic diagram of the state of ice making box when deicing in the embodiment of the present invention one；

Fig. 5 is the workflow schematic diagram of the refrigerator ice-making in the embodiment of the present invention three；

Fig. 6 is the workflow schematic diagram that the refrigerator in the embodiment of the present invention three deices.

Specific embodiment

Hereinafter, the present invention will be described in detail with reference to various embodiments shown in the accompanying drawings.But these embodiments are not The limitation present invention, structure that those skilled in the art are made according to these embodiments, method or change functionally It changes and is included within the scope of protection of the present invention.

The term of the representation space relative position used herein such as "upper", " top ", "lower", " lower section " is for just A unit as shown in the drawings or feature are described relative to another unit or the relationship of feature in the purpose of explanation.It is empty Between the term of relative position can be intended to include different direction of the equipment in use or work other than orientation as shown in the figure. For example, the unit for being described as being located at other units or feature " below " or " under " will if the equipment in figure overturn Positioned at other units or feature " top ".Therefore, exemplary term " lower section " can include above and below both orientation.If It is standby to be otherwise directed (be rotated by 90 ° or other directions), and be interpreted accordingly used herein with space correlation Language is described.

Also, it should be understood that although term first, second etc. can be used to describe herein various elements or Structure, but these are described object and should not be limited by these terms.These terms are only used to by these description objects that This is distinguished.For example, the first rotational structure can be referred to as the second rotational structure, and similarly the second rotational structure can also be with Referred to as the first rotational structure, this protection scope without departing from the application.

As shown in Figure 1, the embodiment of the present invention one provides a kind of ice-making component of refrigerator, the refrigerator 100 includes: cabinet 1, storage compartment 12, the evaporator 11 for refrigeration and the condenser (not shown) for heat dissipation are provided in the cabinet 1；Door Body 2, for opening and closing the storage compartment 12；Wherein, the ice-making component includes being set to the intracorporal ice making of the door Box 21, ice making box 21 can be disconnected to by heat pipe 23 is connected to the evaporator 11, and ice making box 21 can be disconnected to by heat pipe 23 It is connected to the condenser.

Here, the refrigerator can be air cooling type refrigerator or direct cooling refrigerator.It is provided in the cabinet 1 for storing The storage compartment 12 (such as refrigerating chamber or freezing chamber) of reserve is used for providing the evaporator 11 of cooling capacity for storage compartment 12 In by store compartment 12 in heat be dispersed into the condenser in surrounding air.In general, the door body 2 is pivotably coupled to institute It states on cabinet 1, for opening and closing the refrigeration compartment 12.It should be appreciated that in ice making box 21, there are ice making boxs to deice this Two processes, therefore, in synchronization, ice making box 21 only can connect to any one in the evaporator 11 and condenser.

In ice making, needing to inject suitable water to ice making box 21, (user is manually injected into or is infused automatically by water filling device Enter), ice making box 21 is then connected to by evaporator 11 by heat pipe 23, cooling capacity caused by such evaporator 11 will be along heat Pipe 23 is imported into ice making box 21, so that the water in ice making box 21 will freeze, completes the process of ice making.Due to leading for heat pipe 23 Hot property is fabulous, therefore can be rapidly by the cooling capacity of evaporator 11 to ice making box 21 is imported into, to quickly complete ice making； And the technical solution is only additionally arranged heat pipe 23, not will increase too many cost, i.e., it is low in cost.Optionally, it completes to make ice Later, the connection between ice making box 21 and evaporator 11 is disconnected.

When deicing, need that ice making box 21 is connected to condenser by heat pipe 23, in this way, heat caused by condenser It will be imported into ice making box 21 along heat pipe 23, by the part ice contacted with ice making box 21 to melting, so that ice can take off From ice making box 21, the process deiced is completed.It, can be rapidly by the heat of condenser since the heating conduction of heat pipe 23 is high It measures to ice making box is imported into, quickly completes ice making；And the technical solution is only additionally arranged heat pipe 23, to will not increase too many Cost, i.e., it is low in cost.Optionally, after completing to deice, the connection between ice making box 21 and condenser is disconnected.And de- When ice, scattering and disappearing for the heat of condenser is also accelerated, that is, improves the working efficiency of condenser.

Preferably, in order to accelerate the process for making ice and deicing, ice making box 21 is made of metal material；Metal material it is thermally conductive Performance is usually relatively high, and optionally, the ice making box 21 can be made of the metal material of the good heat conductivities such as copper, iron or aluminium.

Preferably, 21 periphery of ice making box is wound with heat pipe 23.Heat pipe 23 is wrapped in the outer wall of ice making box 21, increases heat The contact area of pipe 23 and ice making box 21 improves the efficiency of heat exchange, accelerates the speed that ice making deices.

Preferably, the ice making box 21 can be disconnected to by heat pipe 23 is connected to the evaporator 11, comprising: the evaporation At least one heat exchanger tube 13 of device 11 is directed at the doorframe of the cabinet, and one end of the heat pipe 23 is connected to the ice making Box 21, the other end are directed at the doorframe relative to the heat exchanger tube 13 of the door body 2, when door body 2 is closed, the heat Pipe 23 can contact the heat exchanger tube 13.

As shown in Figure 1, heat exchanger tube 13 can be contacted with heat pipe 23 when door body 2 is closed, therefore, heat pipe 23 can will be cold Amount from evaporator 11 to being imported on ice making box 21, thus can so that ice making box 21 water freezing.

Preferably, as shown in Figure 2 and Figure 3, the ice making box 21 can be disconnected to by heat pipe 23 is connected to the evaporator 11, ice making box 21 can be disconnected to by heat pipe 23 is connected to the condenser, comprising: at least one of the evaporator 11 exchanges heat Pipe 13 is directed at the doorframe of the cabinet；The heat pipe 23 divides two parts for flexible connection, first part (not shown) It is connected to the ice making box 21, second part 232 is directed at the doorframe relative to the heat exchanger tube 13 of the door body 2, And when door body 2 is closed, second part 232 can contact the heat exchanger tube 13 and remove dew at the doorframe of the cabinet 1 It is any in pipe 14.

In wet weather, refrigerator doors edge will appear droplet, therefore, can be provided at refrigerator doors edge and condenser Connected dew removing tube, so as to which the heat of condenser to leading on refrigerator doors edge, by droplet to evaporating, is played anti-dew Effect.Here, first part and second part 232 can be independent two heat pipes.Optionally, usable electric actuator is The movement of second part 232 provides power.It should be appreciated that being only capable of 13 He of contact heat-exchanging pipe in synchronization second part 232 Any one in dew removing tube 14.

As shown in Fig. 2, ice making box 21 can be made to be connected to by heat pipe by second part 232 when door body 2 is closed Heat exchanger tube 13, so that the cooling capacity of evaporator 11 be imported into ice making box 21, so that it may ice making.As shown in figure 3, working as door body When 2 closing, ice making box 21 can be made to be connected to dew removing tube 14 by heat pipe by second part 232, thus by condenser 14 Heat to being imported into ice making box 21, so that it may deice.The preferred embodiment is simple, easy-to-use and low in cost.

Preferably, the heat pipe 23 divides two parts for flexible connection, comprising: the first part of the heat pipe 23 passes through the One rotational structure 231 is flexibly connected with the middle part of second part 232.As shown in Figure 2 and Figure 3, by the rotation of second part 232, In synchronization, second part 232 is only capable of being connected with any in 14 the two of heat exchanger tube 13 and dew removing tube, i.e., will not connect simultaneously Therefore the two increases the safety and reliability of the ice-making component.

Preferably, the storage chamber 22 being additionally provided in door body 2 below the ice making box 21.

When completing to deice, the ice in ice making box 21 can be stored in storage chamber 22, for example, by the way of mechanical Ice is medium to storage chamber 22 is pushed into.Optionally, the side wall of the front panel of the close door body 2 of storage chamber 22 is provided with one and opens Mouthful, dodge gate is installed in opening, the front panel of door body 2 is correspondingly also equipped with opening, so that user be facilitated to take ice.

Preferably, 21 side of ice making box is connected to heat pipe 23 by the second rotational structure 24, and the other side is equipped with and can close The opening of conjunction.

As shown in figure 4, needing for the opening of ice making box to be closed in ice making, after making ice completion, second can be passed through The rotation of rotational structure 24, so that the opening down alignment storage chamber 22 of ice making box 21, opens simultaneously its opening, complete in this way After deicing, ice will be voluntarily slipped in storage chamber 22.As shown in figure 4, in order to allow ice making box 21 along the second rotation Structure 24 rotates, then needs to be arranged in door body 2 cavity, and ice making box 21 is arranged in cavity, so that ice making box 21 can It is rotated in cavity.The top of the storage chamber 22 is equipped with opening, then the ice in ice making box 21 can voluntarily be slipped to storage chamber 22 In.

Second embodiment of the present invention provides a kind of refrigerator, the refrigerator includes: cabinet 1, is provided with storage in the cabinet 1 Compartment 12, the evaporator 11 for refrigeration and the condenser (not shown) for heat dissipation；Door body 2, for opening and closing described Store compartment 12；The refrigerator further includes ice-making component described in embodiment one.

The embodiment of the present invention three provides a kind of refrigerator, and the refrigerator includes: cabinet 1, is provided with storage in the cabinet 1 Compartment 12, the evaporator 11 for refrigeration and the condenser (not shown) for heat dissipation；Door body 2, for opening and closing described Store compartment 12；The refrigerator further includes ice-making component described in embodiment one；And the system of capable of detecting is additionally provided in ice making box Whether there are water, the amount of ice and the ice making box state sensor of the temperature in ice making box in ice chest.

As shown in figure 5, the ice-making process of the refrigerator is,

Step 501: receiving ice making order；

Step 502: the operating status of refrigerator is obtained, when the operating status of refrigerator meets following either condition, operation step Rapid 506, otherwise operating procedure 503；Condition is that the refrigeration mode of (1) refrigerator is to drag down thermophase；(2) door body 2 is in opening state State；(3) it is detected by ice making box state sensor anhydrous in ice making box 21；(4) it is detected by ice making box state sensor Ice is filled in ice making box 21；(5) temperature of storage room is higher than 4 degrees Celsius than set temperature；

Step 503: ice making box 21 is connected to evaporator 11 by the first rotational structure 231 of control, at this time on evaporator 11 Cooling capacity can be imported into ice making box 21 by heat pipe, so that the water in ice making box 21 can freeze, start to make ice；

Step 504: when ice making time reaches the temperature in preset time or ice making box less than minus 4 degrees Celsius, executing step Rapid 505, it is otherwise continued for making ice；

Step 505: the first rotational structure 231 of control disconnects the connection between ice making box 21 and evaporator 11；

Step 506: ice-making process terminates.

Optionally, the process of deicing can be opened simultaneously in step 506.And a control mould can be set in refrigerator Block executes step 501-506 to control each functional module of refrigerator.

There are two types of refrigeration modes for usual refrigerator: dragging down thermophase and lasting cooling stages；When refrigerator starts to start work, storage When object compartment 12 is reduced to lower set temperature by higher temperature (such as room temperature), refrigeration mode at this time is exactly to drag down warm rank Section；When the temperature of storage room 12 relatively set temperature (for example differing positive and negative 3 degree), refrigeration mode at this time is lasting Cooling stages.

In step 2, when the refrigeration mode of refrigerator is to drag down thermophase, refrigerator is just in running at full capacity to reduce storing Temperature in compartment 12 can forbid ice-making process in order to not influence the speed of refrigeration for refrigerator；When door body 2 is in the open state When, it is seen that if allowing to make ice in ice making box at this time, it will cause being largely lost for the cooling capacity of evaporator 11, therefore, Ke Yijin Only ice-making process；It is anhydrous in ice making box 21 when detecting, in order not to allow the cooling capacity of evaporator 11 to be lost, energy saving, Ke Yijin Only ice-making process；It is filled with ice when detecting in ice making box 21, illustrates to have reached ice making purpose, therefore, can forbid making ice Journey；When storage room temperature than set temperature be higher than 4 degrees Celsius, show store compartment temperature it is higher than the temperature of setting very It is more, at this time refrigerator should running at full capacity to reduce the temperature of storage room, in order to not influence the speed of refrigeration for refrigerator, Ke Yijin Only ice-making process.

As shown in fig. 6, the refrigerator deices process are as follows:

Step 601: receiving and deice order；

Step 602: by the rotation of the second rotational structure 24, so that the opening down alignment storage chamber 22 of ice making box 21, Open simultaneously the opening of ice making box 21；

Step 603: ice making box 21 is connected to dew removing tube 14 by the first rotational structure 231 of control, at this time on dew removing tube 14 Heat can be imported into ice making box 21 by heat pipe, so that the part that the ice in ice making box 21 is contacted with ice making box can melt, from And the process deiced is completed, after completing to deice, ice will be voluntarily slipped in storage chamber 22；

Step 604: when the amount (for example being set as zero) for detecting the ice in ice making box by ice making box state sensor is less than When equal to preset value, the first rotational structure 231 of control disconnects the connection between ice making box 21 and dew removing tube 14, and controls the second rotation Ice making box 21 is restored to normal position state by the rotation of rotation structure 24；

Step 605: the process of deicing terminates.

It may remind the user that in storage chamber 22 there is ice in step 605.

It should be appreciated that although this specification is described in terms of embodiments, but not each embodiment only includes one A independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should will say As a whole, the technical solution in each embodiment may also be suitably combined to form those skilled in the art can for bright book With the other embodiments of understanding.

The series of detailed descriptions listed above only for feasible embodiment of the invention specifically Protection scope bright, that they are not intended to limit the invention, it is all without departing from equivalent implementations made by technical spirit of the present invention Or change should all be included in the protection scope of the present invention.

Claims (8)

1. a kind of ice-making component of refrigerator, the refrigerator include: cabinet, the cabinet is provided with storage compartment, for refrigeration Evaporator and condenser for heat dissipation；Door body, for opening and closing the storage compartment；It is characterized in that,

The ice-making component includes being set to the intracorporal ice making box of the door, and at least one heat exchanger tube of the evaporator is drawn At the doorframe for leading the cabinet；The heat pipe is divided into two parts of flexible connection, and first part is connected to the ice making box, the Two parts are directed at the doorframe relative to the heat exchanger tube of the door body, and when door body is closed, second part can Contact the heat exchanger tube and in the dew removing tube at the doorframe of the cabinet it is any, in synchronization, ice making box is only capable of connecting To any one in the evaporator and condenser.

2. the ice-making component of refrigerator according to claim 1, it is characterised in that: ice making box is made of metal material, and outer It encloses and is wound with heat pipe.

3. the ice-making component of refrigerator according to claim 1, which is characterized in that the heat pipe is divided into two of flexible connection Point, comprising: the first part of the heat pipe is flexibly connected by the first rotational structure with the middle part of second part.

4. the ice-making component of refrigerator according to claim 1, it is characterised in that:

The ice making box is made of metal material.

5. the ice-making component of refrigerator according to claim 1, it is characterised in that:

The ice making box periphery is wound with heat pipe.

6. the ice-making component of refrigerator according to claim 1, it is characterised in that:

The storage chamber being additionally provided in door body below the ice making box.

7. the ice-making component of refrigerator according to claim 6, it is characterised in that:

The ice making box side is connected to heat pipe by the second rotational structure, and the other side is equipped with closeable opening.

8. a kind of refrigerator, the refrigerator includes: cabinet, and the cabinet is provided with storage compartment, evaporator and use for refrigeration In the condenser of heat dissipation；Door body, for opening and closing the storage compartment；It is characterized by comprising claims 1 to 7 times Ice-making component described in one.