CN101074823A - Structure for setting ice-maker connector of refrigerator - Google Patents

Abstract

This invention discloses a setup configuration for the connector of the ice house, it includes the door of the storage room used to open or close the room, the ice house fixed inside the storage room, the support connecter used to supply the power for the ice machine which can be selectively connected to ice machine on the corresponding location of the ice machine, fixed bracket used to settle the connector which is connect to the body shelf connector on the inside of the storage door. One side part of the ice machine is made corresponding to the shape of the body shelf connector, so this can joggle selectively with the body shelf connector. There is also insert orifice of the connector used to lock the connector which is formed on the fixed bracket, and the line and run-through orifice for the line which can connect to the shelf connector. In this invention, the body shelf connector is fixed on one side of the storage door, the disassembly of the ice machine can become easy, so this improve the produce and maintenance of the product.

Description

The structure for setting ice-maker connector of refrigerator

Technical field

The present invention relates to a kind of refrigerator.Particularly relate to a kind of ice machine and selectively be arranged on a side of refrigerating-chamber door by bay connector, and the structure for setting ice-maker connector of the refrigerator that the installation site of bay connector is fixed by analog bracket.

Background technology

In general, refrigerator is that the cryopreservation with food is the device of purpose, carries out freezing to food or refrigeration is taken care of according to the state of want preserved food.The cold air that supplies to refrigerator inside produces by the heat exchange action of refrigerant, carry out the cyclic process of compression condensation-expansion-evaporation repeatedly and sustainable supply to the inside of refrigerator, the refrigerant that is supplied to evenly is delivered to the inside of refrigerator by convection current, and the food of refrigerator inside is stored with temperature desired.

Fig. 1 is the general Facad structure schematic diagram of refrigerator when the refrigerator doors opening.As shown in Figure 1, the body 10 of refrigerator forms with the lineal hexahedral shape, and the inboard of body 10 is divided the refrigerating chamber 20 that is formed with chilled food and the refrigerating chamber 30 of frozen food respectively in the upper and lower.

Refrigerating chamber 20 and refrigerating chamber 30 form independently space respectively, and its front forms opening.The front of opening body selectively opens and closes by refrigerator doors 40,50, and refrigerator doors 40,50 is divided into the refrigerating-chamber door 40 of the refrigerating chamber 20 that opens and closes body 10 tops and opens and closes the refrigerating chamber door 50 of the refrigerating chamber 30 of body 10 bottoms.

Refrigerating-chamber door 40 is arranged on and arranged on left and right sides, and its both side ends is fixed on the body 10 and is rotatable.And then the user selectively opens and closes the front of refrigerating chamber 20 openings by left and right rotation refrigerating-chamber door 40.

On the inside of refrigerating chamber 20 and refrigerating-chamber door 40, can store the food of various different sizes and shape, in order to store these food, the medial surface of the inside of refrigerating chamber 20 and refrigerating-chamber door 40 is provided with a plurality of drawer or basketry, the supports etc. that can store according to the characteristic of food.

The bottom of body 10, promptly the front of refrigerating chamber 30 openings selectively opens and closes by refrigerating chamber door 50., refrigerating chamber door 50 front and rear directions open and close the front of the opening of refrigerating chamber 30 selectively but sliding.

Forwards protrude on the top of refrigerating chamber door 50 and to be formed with the refrigerating chamber door handle 52 that the user is held easily.The inboard of refrigerating chamber 30 has a plurality of drawers and storing basket, therefore, multiple different foods can be separated storage, is provided with the ice machine 60 of manufacturing ice cube in a side of refrigerating chamber 30.

But there are the following problems for aforesaid prior art.

The ice machine 60 of making ice cube in the refrigerator of prior art is arranged on 30 li of the refrigerating chambers of body 10 downsides, so the user is when getting ice cube, need stoop waist operation ice machine 60 after opening refrigerating chamber door 50, so cause the inconvenience used.

The problem of depositing in order to solve as above existing is studied, and ice machine 60 is arranged on the refrigerating-chamber door 40, distributor (not shown) is set and makes the user can take out the refrigerator of ice cube from the outside of refrigerating-chamber door 40 at the downside of ice machine 60.

But these structures need the ice machine 60 of making ice cube is set on refrigerating-chamber door 50, need connect a plurality of electric wires in order to drive ice machine.So the operation that ice machine 60 is installed on the refrigerating-chamber door 50 becomes difficulty, and need safeguard ice machine the time, the dismounting of ice machine also is not easy.

Summary of the invention

Technical problem to be solved by this invention is, the structure for setting ice-maker connector of the refrigerator of a kind of ice machine selectively is arranged on refrigerating-chamber door by bay connector a side is provided.

Another technical problem to be solved by this invention is, the structure for setting ice-maker connector of the refrigerator that the installation site that a kind of bay connector is provided is fixed by analog bracket.

The technical solution adopted in the present invention is: a kind of structure for setting ice-maker connector of refrigerator, include, and selectively open and close the refrigerating-chamber door of refrigerating chamber; The medial surface that is arranged on refrigerating-chamber door is made the ice machine of ice cube; Be arranged on the side with the corresponding refrigerating-chamber door in installation site of ice machine, selectively combine and supply with the bay connector of working power with a side of ice machine to ice machine; Be arranged on the inside of refrigerating-chamber door, a side combines with bay connector and the analog bracket of the installation site of fixed frame connector.

One side of ice machine, to form with the corresponding shape of the shape of bay connector, thus can with bay connector selectively shape close.

Bay connector is to expose and be provided with to the inboard of refrigerating-chamber door.

The bay connector side of facing down is formed with the joint portion that can combine with ice machine.

Analog bracket also is formed with the electric wire openings that the connector that can block bay connector inserts mouth and can be fixedly connected on the electric wire of bay connector.

The structure for setting ice-maker connector of refrigerator of the present invention becomes easily the assembly and disassembly of ice machine, therefore improves the productivity and the maintainability of product.Promptly in a side of refrigerating-chamber door bay connector is installed, a side of ice machine combines with a side of bay connector and to the installed inside ice machine of ice-making compartment.Thereby, after ice machine produced with the assembling of independent module, be connected on the bay connector, be installed to thus in the ice-making compartment of refrigerating-chamber door, so the production of product becomes easily.

Owing to the mode of taking to combine, therefore no longer connect the operation of electric wire, thereby the assembling of product becomes the easy production efficiency of products that improved with bay connector.

And, when in the process of using refrigerator, needing to safeguard ice machine, be easy to isolate ice machine from refrigerating-chamber door by the combination of removing ice machine and bay connector, therefore can improve the maintainability of product.

Because bay connector is fixed on the analog bracket, and analog bracket is fixed on the inboard of refrigerating-chamber door, therefore the installation site of fixed frame connector easily.

Injection by expanded polystyrene (EPS) can prevent that the installation site of bay connector from changing, and the combination of ice machine and bay connector is become easily, therefore can improve the convenience of product assembling.

Analog bracket and impermeable parts form independent space in the inboard of refrigerating-chamber door and can prevent that expanded polystyrene (EPS) from polluting bay connector or door lining.

Description of drawings

Fig. 1 is the general Facad structure schematic diagram of refrigerator when the refrigerator doors opening;

Fig. 2 adopts refrigerator external front face structural representation of the present invention;

Fig. 3 is the structural representation when adopting cold compartment of refrigerator door opening of the present invention;

Fig. 4 is the decomposition texture schematic diagram of the installment state of ice machine of the present invention;

Fig. 5, Fig. 6 are the structural representations of ice machine bay connector of the present invention and analog bracket bonding state;

Fig. 7 is the structural representation of the profile of ice machine analog bracket of the present invention.

Wherein:

100: body 200: refrigerating chamber

220: refrigerating-chamber door 222: door-plate

224: door lining 226: polystyrene foam

240: distributor 260: operating portion

300: refrigerating chamber 320: refrigerating chamber door

340: depository dish 360: freezer evaporator

400: cold air path 500: ice-making compartment

520: ice-making compartment door 540: ice machine

560: move ice maker 600: bay connector

620: joint portion 640: electric wire

700: analog bracket 720: connector inserts mouth

740: electric wire openings 760: impermeable parts

The specific embodiment

The embodiment of the structure for setting ice-maker connector of the refrigerator of the present invention of structure is elaborated to having as above in conjunction with the accompanying drawings down.

Fig. 2 adopts refrigerator external front face structural representation of the present invention; Fig. 3 is the structural representation when adopting cold compartment of refrigerator door opening of the present invention.As Fig. 2, shown in Figure 3, refrigerator body 100 constitutes with about lineal hexahedral shape, and the inside of body 100 is divided into refrigerating chamber 200 and refrigerating chamber 300, and forms separate space respectively.

Refrigerating chamber 200 is formed on the top of body 100, though there is not detailed icon, for the inside at refrigerating chamber 200 effectively holds various foods, with the space of the basketry of different shape and division refrigerating chambers 200 such as support and drawer and be provided with.

The cold air of supplying with from a side of body 100 is because being provided with it and flowing and be affected of basketry and support and drawer etc., thus cold air to the restricted cold air skewness of hiding 200 inside, chamber that makes that fails to be convened for lack of a quorum.The temperature characterisitic that the user can produce according to this difference of cool-air feed goes up in position and places the food of being stored.

The front openings of refrigerating chamber 200 and forming, the front of refrigerating chamber 200 openings is is selectively opened and closed by refrigerating-chamber door 220.Refrigerating-chamber door 220 is separately positioned on the and arranged on left and right sides of body 100, and the left and right side end hinge of refrigerating-chamber door 220 is connected a side of body 100 separately.

Refrigerating-chamber door 220 is the center rotation with the hinge link, and the front of refrigerating chamber 200 openings is selectable the switching by the rotation of refrigerating-chamber door 220.

On the refrigerating-chamber door 220 in left and right side refrigerating-chamber door 220, has the distributor 240 of the ice-making compartment 500 that next will illustrate and can take from the outside pure water and ice cube; Also being formed with show ontology 100 temperature inside regulates with the display part of state and is provided with the operating portion 260 of action button etc.

Though there is not detailed icon, but family bar (not shown) can also be set on the another one refrigerating-chamber door 220 in left and right side refrigerating-chamber door 220, thus under the state of not opening refrigerating-chamber door 220, the food that also can take from the outside beverage or wine etc. need frequently be taken.

The below of refrigerating chamber 200 is refrigerating chambers 300 of dividing body 100 with refrigerating chamber 200 and constituting independent space in the bottom of body 100.Refrigerating chamber 300 is to fish or meat or needs the food of long-time storage carry out freezing and the place of preserve foods, and the inboard of refrigerating chamber 300 has the size of the food that keeps in cold storage as required or state to the drawer of its keeping of classifying or basketry etc.

The front of refrigerating chamber 300 is provided with the refrigerating chamber door 320 of the inside that opens and closes refrigerating chamber 300.The lower end of refrigerating chamber door 320 is connected with the lower end hinge of the depository dish of stored food 340, depository dish 340 can before and after slide, thus can with refrigerating chamber door 320 together forwards, backwards direction pull out or push.

The rear of refrigerating chamber 300 is provided with independent freezer evaporator 360.The air of freezer evaporator 360 by the refrigerant and freezer evaporator 360 outsides carries out heat exchange and produces cold air, and the cold air that results from freezer evaporator 360 flow into refrigerating chamber 300 and makes refrigerating chamber 300 have powerful cooling capacity.

A part that results from the cold air of freezer evaporator 360 flow into ice-making compartment 500 by cold air path 400, the cool-air feed fan (not shown) that is arranged on refrigerating chamber 300 1 sides this moment make result from freezer evaporator 360 cold air by cold air path 400 forced conveyance to 500 li of the ice-making compartments that next will describe in detail.

Cold air path 400 is arranged on the inboard of a side wall surface of refrigerating chamber 200, is filled with heat-barrier material on the wall of refrigerating chamber 200, can prevent from by the cold air that cold air path 400 is carried the internal temperature of refrigerating chamber 200 to be changed.

Fig. 4 is the decomposition texture schematic diagram of the installment state of ice machine of the present invention.As shown in Figure 4, refrigerating-chamber door 220 is made of door-plate 222 and door lining 224.

Door-plate 222 constitutes the outward appearance of refrigerating-chamber doors 220, and it is equivalent to be exposed to the part of the front of refrigerator, therefore should be made of materials such as good stainless steel of attractive in appearance, wearability and corrosion resistance or aluminium alloys.

The back of door-plate 222, promptly the back of refrigerating-chamber door 220 is formed with a lining 224.Door lining 224 constitutes the back outward appearance of refrigerating-chamber door 220, generally should be made of plastic material.

Formation storage spaces such as basketry are set behind the inboard depression of the one side direction certain depth of door lining 224, particularly form the top of the refrigerating-chamber door 220 of ice-making compartment 500, in order to form the space of ice making and store ice blocks, after protruding, its outside forms with the certain depth depression again.

The inside of refrigerating-chamber door 220 promptly is filled with expanded polystyrene (EPS) 226 between door-plate 222 and the door lining 224.Expanded polystyrene (EPS) 226 is to prevent the heat-barrier material that the temperature of refrigerating chamber 200 risen owing to the inside of refrigerating chamber 200 and the outside temperature difference, and it evenly is filled in the inside of refrigerating-chamber door 220.

Ice-making compartment 500 is the spaces of making ice cube and store ice blocks, it is in order to take out the top that the ice cube of making is arranged on distributor 240 from the outside by distributor 240, and it is arranged on one inboard in the both sides refrigerating-chamber door 220 of the front that can open and close refrigerating chamber 200 openings.

Ice-making compartment 500 protrudes and forms to the inboard of refrigerating chamber 200 from refrigerating-chamber door 220, and the inner space of ice-making compartment 500 selectively opens and closes by the ice-making compartment door 520 to a sideway swivel.

The inside of ice-making compartment 500 forms the space that is independent of refrigerating chamber 200, and when closing cold room door 220, a side of ice-making compartment 500 contacts with a side wall surface of refrigerating chamber 200.

Be provided with the ice machine 540 of making ice cube in the inboard of ice-making compartment 500 and be arranged at ice machine 540 downside and with the ice cube storage made and transfer move ice maker 560.

Supply with the cold air that results from the freezer evaporator 360 that next will describe in detail to ice machine 540, the water by cold air and ice machine 540 inside carries out heat exchange and carries out the ice making operation.

One side of the medial surface of ice-making compartment 500, the side that the door lining 224 of ice machine 540 promptly is installed is provided with and is exposed to outside bay connector 600.Bay connector 600 drives to ice machine 540 supply powers for making ice machine 540, and for the ease of dismantling modular ice machine 540, bay connector 600 combines with a side of ice machine 540.

Move ice maker 560 and be used to store the ice cube that ice machine 540 is gone out, it can take out ice cube and transfer the ice cube of being stored to distributor 240 by distributor 240 as required in order to make the user.

Fig. 5, Fig. 6 are the structural representations of ice machine bay connector of the present invention and analog bracket bonding state; Fig. 7 is the structural representation of the profile of ice machine analog bracket of the present invention.As shown in the figure, bay connector 600 is about lineal hexahedral shape, and it is arranged in the lining 224 and exposes a part laterally.

Bay connector 600 connects analog bracket 700 and installs.Should make with the joint portion 620 of the corresponding combination of a side of ice machine 540 to connect analog brackets 700 and be exposed to outside installation, a corresponding side of the joint portion 620 of bay connector 600 and ice machine 540 forms with the shape that can match.

The installation site of analog bracket 700 fixed frame connectors 600, it is formed by tetragonal tabular repeatedly the bending, and is inserted in the inboard of a lining 224.The connector that is used for fixing bay connector 600 that the right flank of analog bracket 700 (when Fig. 5 observes) is formed with perforation inserts mouthfuls 720.

Insert on the other side (when Fig. 5 observes) of mouthful 720 corresponding analog brackets 700 with connector, be formed with the electric wire openings 740 that is connecting the electric wire that is connected in bay connector 600, bay connector 600 connects electric wire openings 740 and connector insertion mouth 720 and is provided with.

Be provided with the inside of the refrigerating-chamber door 220 of analog bracket 700, promptly door-plate 222 and door are filled with expanded polystyrene (EPS) 226 between the lining 224, and it plays the effect of the heat-barrier material of refrigerating-chamber door, simultaneously also fixing analog bracket 700.

Also be provided with impermeable parts 760 at the downside of analog bracket 700, can prevent that thus expanded polystyrene (EPS) 226 from flowing into the inboard of analog bracket 700, and make bay connector 600 keep stable installation site as sponge material.

It is following that effect to the refrigerator that adopted the structure for setting ice-maker connector with refrigerator of the present invention describes with reference to accompanying drawing.

After refrigerator body 100 was connected external power source, the electrical installation of body 100 inside and parts began to drive.Driving along with electrical installation and parts, the cold air of in the internal flow of the evaporimeter of body 100 inside and the air of refrigerating chamber 200 and refrigerating chamber 300 inside carry out heat exchange, make the temperature of refrigerating chamber 200 and refrigerating chamber 300 be reduced to the temperature that is suitable for stored food.

Part in the cold air that results from freezer evaporator 360 of cooling refrigerating chamber 300 moves to ice-making compartment 500 along cold air path 400, and the cool-air feed that flow into ice-making compartment 500 inboards is to ice machine 540.

The cold air that is fed into ice-making compartment 540 carries out heat exchange with the water that is stored in ice machine 540, begins to make ice cube thus on the ice machine 540 of ice-making compartment 500 inboards.Ice making speed and ice-making capacity depend on the amount of the cold air that freezer evaporator 360 is supplied with.

The cold air of finishing heat exchange in the inside of ice-making compartment 500 is discharged to refrigerating chamber 300 again by cold air path 400, and the cold air that results from freezer evaporator 360 is carried out these processes repeatedly.

The cold air of supplying with at the inside of ice-making compartment 500 and freezer evaporator 360 carries out heat exchange and the ice cube that makes is stored in ice-making compartment 500, is stored in a part in the ice cube of ice-making compartment 500 and stores and move in the ice maker 560.

During the as required affected distributor 240 of user, move ice maker 560 work and the ice cube that will be stored in ice-making compartment 500 supplies to distributor 240, the user can be from the outside by distributor 240 taking-up ice cubes like this.

For in assembling or can observe when safeguarding ice machine and obtain, be exposed to the outside and be provided with the joint portion 620 of bay connector 600 in top one side of the door lining 224 that forms ice-making compartment 500.

When ice machine 540 is installed,, ice machine 540 is upwards promoted and installs for the part that ice machine 540 and bay connector 600 are matched can be attached to the joint portion 620 of bay connector 600.

During with ice machine 540 dismounting, opposite for maintenance with the erection sequence of ice machine 540, spur and make ice machine 540 to break away from ice-making compartments 500 on the contrary to the formation direction of bay connector 600 ice machine 540.

Claims (5)

1. the structure for setting ice-maker connector of a refrigerator is characterized in that, includes, and selectively opens and closes the refrigerating-chamber door (220) of refrigerating chamber (200); The medial surface that is arranged on refrigerating-chamber door (220) is made the ice machine (540) of ice cube; Be arranged on the side with the corresponding refrigerating-chamber door in installation site (220) of ice machine (540), selectively combine with a side of ice machine (540) and to the bay connector (600) of ice machine (540) supply working power; Be arranged on the inside of refrigerating-chamber door (220), a side combines with bay connector (600) and the analog bracket (700) of the installation site of fixed frame connector (600).

2. the structure for setting ice-maker connector of refrigerator according to claim 1, it is characterized in that, one side of ice machine (540), to form with the corresponding shape of the shape of bay connector (600), thus can with bay connector (600) selectively shape close.

3. the structure for setting ice-maker connector of refrigerator according to claim 1 and 2 is characterized in that, bay connector (600) is to expose and be provided with to the inboard of refrigerating-chamber door (220).

4. the structure for setting ice-maker connector of refrigerator according to claim 3 is characterized in that, bay connector (600), and the side of facing down is formed with the joint portion (620) that can combine with ice machine (540).

5. the structure for setting ice-maker connector of refrigerator according to claim 3, it is characterized in that, analog bracket (700), also be formed with the electric wire openings (740) that the connector that can block bay connector (600) inserts mouthful (720) and can be fixedly connected on the electric wire of bay connector (600).

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