CN101074818A - Refrigerator - Google Patents

Abstract

This invention discloses a refrigerator, it consist of freezing room, cold storage room, the door of the freezing room and storage room, ice forming room, cold air pipeline and support of the pipe assembly in the inside wall of the cold storage room which is introduce the location of the cold air pipe, and it can import part of the cold air to the freezing room by the pipes, so this can avoid setting another separate freezing device for the form of ice., and take advantage of the cold air and save the cost. In addition, the support of the pipe in this invention can prevent the movement of the cold air pipe, and make sure that the pipe is in the right position, so there is some space between cold air pipe and the outside and inside case of the storage room's wall which is in the storage room. At last, this can make the vesicant filled in the wall of the storage room flowing more fluently and filling more sufficiently, and it can prevent lose of the cold and hot air in the cold air pipe and improve the heat-proof effectiveness.

Description

Refrigerator

Technical field

The present invention relates to a kind of refrigerator, particularly relate to a kind of by make the refrigerator of circulating cold air under the fixedly guide functions of support of pipelines structure by input channel and discharge line.

Background technology

Usually, refrigerator is a device of preserving food under low temperature environment, according to the needs of food preservation, stores in mode freezing or refrigeration.Refrigerant provides cold by heat exchanger for refrigerator inside, along with the cyclic process of compression condensation-expansion-evaporation of carrying out repeatedly, for refrigerator inside continues to provide cold.The cold that provides passes to refrigerator inside equably in the mode of free convection, the food storage of refrigerator inside under the design temperature of needs.

Fig. 1 is the front schematic view of refrigerator doors open mode in the prior art.As shown in Figure 1, the main body 10 of refrigerator has the lineal hexahedral shape, and the inside of main body 10 is divided into the upper and lower, and top is the refrigerating chamber 20 of preserving chilled food, and the bottom is a refrigerating chamber 40 of preserving frozen food.

The space of refrigerating chamber 20 and refrigerating chamber 40 is independently space of difference, and the front of its refrigerating chamber and refrigerating chamber is a hatch frame.The main body front of opening is provided with refrigerator doors, and door 30,50 is made of the refrigerating chamber door 50 of the refrigerating chamber of refrigerating-chamber door 30 that seals main body 10 upper refrigerator compartment and sealing main body 10 bottoms, and door 30,50 can open and close selectively.

Refrigerating-chamber door 30 is formed on the and arranged on left and right sides on refrigerator top, and its both side ends rotatably is fixed on the main body 10, and left and right side door 30 can optionally open or close refrigerating chamber 20.

On the inside and refrigerating-chamber door 30 of refrigerating chamber 20, be equipped with store multiple different size and shape and be respectively equipped with drawer, storage basket and supporting plate etc. by different stock kinds.

At the positive basifacial of main body 10, i.e. the fronts of refrigerating chamber 40 openings are frozen chamber door 50 and selectively open and close.Refrigerating chamber door 50 selectively opens and closes refrigerating chamber 40 by front/rear direction push-and-pull, is provided with refrigerating chamber door handle 52 in the surface of refrigerating chamber door 50; Refrigerating chamber door handle 52 is outstanding forward to be formed, so that the operator uses easily.

In the inner space of refrigerating chamber 40, be provided with a plurality of drawers and storage basket, can store multiple different food respectively; In a side of refrigerating chamber 40, be provided with the ice maker 42 of making ice cube.

In addition, in existing structure, in addition ice maker is arranged on the refrigerating-chamber door 30, but, needs to install separately refrigerating plant for to ice maker input cold air.

But there is following problem in the refrigerator with above structure:

The ice maker 42 of making ice cube in refrigerator is arranged in the refrigerating chamber 40 of main body 10 downsides, so the user need open refrigerating chamber door 50 in order to take out ice cube, and bends over to operate ice maker 42, is inconvenient to use.

In addition, when being arranged on ice maker on the refrigerating-chamber door 30,, need independent refrigerating plant is installed, cause having increased material cost like this for to ice maker input cold air.

Summary of the invention

Technical problem to be solved by this invention is, overcomes the shortcoming of prior art, and a kind of refrigerator is provided, and a part that offers the cold air in the refrigerating chamber is directed to the ice-making compartment that is arranged on refrigerating-chamber door one side, makes ice-making compartment work.

Another object of the present invention is that the cold air input channel of water conservancy diversion cooling air circulation system and cold air delivery pipe road are fixed on refrigerating chamber wall inside allocation really.

The technical solution adopted in the present invention is: a kind of refrigerator comprises the refrigerating chamber that is used for frozen food; Be arranged on a side of refrigerating chamber, be used for the refrigerating chamber of chilled food; Can open and close the refrigerating chamber door and the refrigerating-chamber door of refrigerating chamber and refrigerating chamber with being allowed a choice; Be arranged on the inboard of refrigerating-chamber door, make the also ice-making compartment of store ice blocks; Be arranged on refrigerating chamber wall inside, the cold air of guiding refrigerating chamber makes it to the mobile cold duct of ice-making compartment; Be arranged on refrigerating chamber wall inside, guiding location cold duct is provided with the support of pipelines structure of position.

Cold duct comprises: input channel and discharge line are formed, and input channel is with the part cold air guiding ice-making compartment of refrigerating chamber, and discharge line is with the cold air guiding refrigerating chamber of discharging in the ice-making compartment; The support of pipelines structure can be simultaneously fixedly input channel and discharge line.

The support of pipelines structure comprises: input channel support, discharge line support, dowel, side positioning bar; Input channel support and the corresponding shape of input channel profile are encircled the input channel outside; Discharge line support and the corresponding shape of discharge line profile, encircle the discharge line outside; Dowel is connected between input channel support and the discharge line support; The side positioning bar is in the outstanding formation in the side of discharge line support and input channel support.

The side positioning bar is arranged on the both sides of discharge line support and input channel support symmetrically, and the direct cold feed channel makes it to be positioned at refrigerating chamber wall central portion.

The invention has the beneficial effects as follows: refrigerator of the present invention, be formed with the cold duct of water conservancy diversion cold air in the inside of main body, a part of cold air that will offer by pipeline in the cold air of refrigerating chamber inputs to ice-making compartment.Thereby needn't for making ice cube the separate refrigeration device be installed again, can use cold air effectively, save cost.

In addition, owing to the support of pipelines structure that is provided with in the present invention, can prevent moving of cold duct, make the cold duct that is arranged on the refrigerating chamber wall be in correct position, thereby guarantee that cold duct and the inner casing and the shell that are arranged on the refrigerating chamber wall keep at a certain distance away, can make more smooth and easy that the blowing agent that is filled in the refrigerating chamber wall flows, fill more abundant, can prevent to be flowing in the cold air heat loss of cold duct inside, improve effect of heat insulation.

Description of drawings

Fig. 1 is a refrigerator doors open mode Facad structure schematic diagram in the prior art;

Fig. 2 is a door open mode schematic diagram in the refrigerator most preferred embodiment among the present invention;

Fig. 3 is the part schematic diagram of internal structure in the refrigerator most preferred embodiment among the present invention;

Fig. 4 is the structural representation of refrigerator most preferred embodiment support of pipelines among the present invention;

Fig. 5 is the cut-away section schematic diagram of the refrigerator inwall of refrigerator most preferred embodiment support of pipelines structure of the present invention.

100: main body 110: baffle plate

120: cold duct 120 ' a, 120 " a: trunk line

120 ' b, 120 " b: connecting pipe 122: main body outlet

124: main body inflow entrance 130: the support of pipelines structure

132: input channel support 134: the discharge line support

136: dowel 138: the side positioning bar

200: refrigerating chamber 210: the left side refrigerating-chamber door

210 ': right side refrigerating-chamber door 220: ice-making compartment

222: ice making door 230: the door inflow entrance

232: door outlet 240: door storage basket

300: refrigerating chamber 310: refrigerating chamber door

312: door handle 320: refrigerating chamber door storage basket

400: cold air input unit I: inner casing

L: blowing agent O: shell

The specific embodiment

Below, with the specific embodiment refrigerator of the present invention is described in further detail in conjunction with the accompanying drawings:

Fig. 2 is a door open mode schematic diagram in the refrigerator most preferred embodiment among the present invention; Fig. 3 is the part schematic diagram of internal structure in the refrigerator most preferred embodiment among the present invention.

As Fig. 2, shown in Figure 3, refrigerator main body 100 profiles are cuboid, and refrigerator main body 100 inside are formed with the refrigerating chamber 200 and the refrigerating chamber 300 of stored food.

That is, be provided with certain thickness baffle plate 110, above baffle plate 110, be formed with the refrigerating chamber 200 that stores food with the refrigeration form, below baffle plate 110, be formed with the refrigerating chamber 300 that stores food with frozen form in the inside of main body 100.

In addition, being provided with a plurality of layers or a plurality of supporting plate (not shown) in refrigerating chamber 200 and refrigerating chamber 300 can more effective packing food.The storage space of multiple size can also be set as required, independently.

In the side of main body 100, be formed with the cold duct 120 of water conservancy diversion cold air flow.More specifically be, above-below direction in the left side wall inside of refrigerating chamber 200 is provided with a certain size cold duct 120, this cold duct 120 with the cold air water conservancy diversion of refrigerating chamber 300 to the input channel 120 ' of ice-making compartment 220 and the cold air that ice-making compartment 220 is discharged is directed to the discharge line 120 of refrigerating chamber 300 ".

Cold duct 120 is by the 120 ' a of trunk line portion, 120 of streamlined flow of guiding cold air " a and be connected trunk line 120 ' a, 120 " a one side is in order to the connecting pipe 120 ' b, 120 of conversion cold air flow direction " b constitutes.As shown in Figure 3, trunk line 120 ' a, 120 " a has certain straight length, guiding cold air.Connecting pipe 120 ' b, 120 " the b smooth curved, in order to change the cold air flow direction of portion within it.

Connecting pipe 120 ' b, 120 " b and trunk line 120 ' a, 120 " a is connected, and perhaps allows trunk line 120 ' a, 120 " a is communicated with the cold air path (not shown) that is arranged on baffle plate 110 inside, connecting pipe plays the connection effect.

On cold duct 120, also be formed with guiding rib 121.Guiding rib 121 is used for direct cold feed channel 120, makes it to be positioned at the tram of refrigerating chamber 200 wall inside, is formed on the outside, both sides of cold duct 120.

Guiding rib 121 to two outstanding definite parts, in more detail, is arranged on connecting pipe 120 ' b, 120 from the side of cold duct 120 symmetrically " left and right side of b, identical being advisable of length of this left and right sides guiding rib 121.

At trunk line 120 ' a, 120 " on a, the support of pipelines 130 that will describe in detail below being formed with.The support of pipelines 130 that will illustrate below is arranged on the wall inside of refrigerating chamber 200, guides the position that cold duct 120 is set with guiding rib 121.

In the inner left wall of main body 100, be respectively arranged with cold gas exhausting outlet 122 and cold airflow inlet 124.Cold gas exhausting outlet 122 is the outlets of being discharged by the cold air of input channel 120 ' water conservancy diversion, and cold airflow inlet 124 is to flow into discharge line 120 by the cold air that the following ice-making compartment that will illustrate 220 is discharged " inlet.

As shown in Figure 2, cold compartment of refrigerator 200 and refrigerating chamber 300 front openings.The front of this opening is opened and closed by the door of left and right sides with being allowed a choice.That is, refrigerating chamber 200 is opened and closed by the rotatable a pair of refrigerating-chamber door 210,210 ' that is arranged on main body 100 front ends.

In more detail, refrigerating-chamber door 210,210 ' is made up of refrigerating-chamber door 210 that can be rotatably set in main body 100 left side front ends and the refrigerating-chamber door 210 ' that can be rotatably set in main body 100 right side front ends.

At the back side of left side refrigerating-chamber door 210, be provided with ice-making compartment 220.Ice-making compartment 220 has a certain size cuboid, and ice making door 222 can open and close with being allowed a choice.In addition, ice making door 222 is provided with the door handle 224 for user's switch.

As shown in Figure 2, in the side of ice-making compartment 220, be formed with the door inflow entrance 230 and the door outlet 232 that contact with cold gas exhausting outlet 122 and cold airflow inlet 124 respectively.Thereby, door inflow entrance 230 water conservancy diversion make it to flow into ice-making compartment 220 inside by the cold air of cold gas exhausting outlet 122 inputs, and door outlet 232 closely contacts with cold airflow inlet 124, the cold air that guiding ice-making compartment 220 is discharged, the cold air that the circulation back is discharged flows into discharge line 120 ".

In the front of left side refrigerating-chamber door 210, be provided with the distributor (not shown) that is used for taking out ice cube that ice-making compartment 220 makes and water and can be from the control panel of external setting-up refrigerator action and to the display part of outside display refrigerator duty etc. from the outside.

In addition, in the inboard of right side refrigerating-chamber door 210 ' and left side refrigerating-chamber door 210, also be provided with a plurality of the storage baskets 240 that can store food.

Refrigerating chamber 300 and refrigerating chamber 200 the same positive opening wide, the front of opening wide is frozen chamber door 310 and opens and closes with being allowed a choice.Refrigerating chamber door 310 is is axle with the lower end, open doors (claiming to tilt door again) is formed forward obliquely.

Be provided with the door handle 312 that can allow the user open easily in refrigerating chamber door 310 fronts, refrigerating chamber door 310 back sides can also be provided with the refrigerating chamber door storage basket 320 similar to the door storage basket 240 at refrigerating-chamber door 210, the 210 ' back side.In addition, in the inside of refrigerating chamber 300, also can a plurality of hutch (not shown) that can store and supporting plate etc. be set respectively according to the size of food or state.

In addition, as shown in Figure 3, the rear wall of refrigerating chamber 300 is to be made of grid plate 330, on grid plate 330, is provided with water conservancy diversion fan installation portion 332.On water conservancy diversion fan installation portion 332, be provided with the cold air input unit 400 that constitutes by cold air water conservancy diversion fan (not shown) and water conservancy diversion fan motor (not shown) etc.

In more detail, water conservancy diversion fan installation portion 332 is provided with cold air input unit 400 from the outstanding forward part of left end of grid plate 330 in the inboard of this water conservancy diversion fan installation portion 332.

Rear side at grid plate 330 is provided with compressor and evaporimeter refrigerating circuit members such as (not shown).Cold air inputs to refrigerating chamber 300 and ice-making compartment 220 after the evaporator cools.

Fig. 4 is the structural representation of refrigerator most preferred embodiment support of pipelines among the present invention; Fig. 5 is the cut-away section schematic diagram of the refrigerator inwall of refrigerator most preferred embodiment support of pipelines structure of the present invention.

As shown in Figure 4 and Figure 5, in the arranged outside of cold duct 120 support of pipelines structure 130 is arranged, this support of pipelines structure 130 is also fixedly input channel 120 ' and discharge line 120 simultaneously ".

In more detail, support of pipelines structure 130 comprises: input channel support 132, discharge line support 134, dowel 136, side positioning bar 138; The corresponding shape of profile of input channel support 132 and input channel 120 ' is also encircled the outside in input channel 120 ', discharge line support 134 and discharge line 120 " the corresponding shape of profile encircles discharge line 120 " the outside, dowel 136 connects input channel support 132 and discharge line support 134, and side positioning bar 138 is arranged at discharge line support 134 and input channel support 132 middle parts and outwards outstanding.

As shown in Figure 4, input channel support 132 is to be linked by many straight lines, is provided with the input channel jack 132 ' that runs through by above-below direction in the inside of input channel support 132.Input channel 120 ' is inserted in the input channel jack 132 ', and input channel is fixed.

Discharge line support 134 is identical with input channel support described above 132, has many linear structures and links, and is provided with the discharge line jack 134 ' that connects by above-below direction in the inside of discharge line support 134.Discharge line 120 " be inserted in the discharge line jack 134 ', discharge line is fixed.

As shown in Figure 4 and Figure 5, dowel 136 connects the lower end of input channel support 132 and the upper end of discharge line support 134.In addition, side positioning bar 138 is arranged on the both sides of discharge line support 134 and input channel support 132 symmetrically, and cold duct 120 is located in guiding, makes it to be positioned at the central portion of refrigerating chamber 200 walls.

In more detail, side positioning bar 138 is formed on the both sides of discharge line support 134 and input channel support 132 by certain-length, and its side positioning bar 138 terminal parts are in contact with one another with the inner casing I and the shell O that are arranged on refrigerating chamber 200 wall profiles.

In addition, the side positioning bar 138 that is separately positioned on discharge line support 134 and input channel support 132 both sides has identical size and is advisable.As shown in Figure 5, so that cold duct 120 is from the inner casing I distance identical with shell O that forms refrigerating chamber 200 inner and outer walls, so side, both sides positioning bar 138 should have identical length.That is,, make it the centre between inner casing I and shell O in order to guide location cold duct 120.

During the central portion of cold duct 120 between inner casing I and shell O, the blowing agent L that is filled between inner casing I and the shell O can flow swimmingly.That is, because the distance between cold duct 120 and inner casing I or the shell O keeps certain value, so blowing agent L can be filled between cold duct 120 and inner casing I and the shell O fully.

Below, the operation principle of refrigerator of the present invention is described:

Connect power supply from the outside, after refrigerator was started working, under the effect of refrigerating circuit, refrigerating chamber 200 and refrigerating chamber 300 kept the low-temperature condition of setting.

In addition, ice-making compartment 220 is made ice cube.The cold of this ice-making compartment 220 is to utilize the part in the refrigerating chamber cold air to obtain.In more detail, the evaporimeter (not shown) that is arranged on refrigerating chamber 300 rear sides absorbs outside heat, allows inner refrigerant evaporation, thereby the evaporimeter air outside is cooled, and is input to refrigerating chamber 300 inside.

In addition, from the cold air that is input to refrigerating chamber 300 inside, a part of cold air is imported into ice-making compartment 220 under the effect of cold air input unit 400.That is, at the air of the positive action current downflow of cold air input unit 400, by baffle plate 110 inner and input channel 120 ' inflow ice-making compartments 220.Thereby ice-making compartment 220 is made ice cube.

After the user used ice cube in ice-making compartment 220, the temperature in the ice-making compartment rose relatively, by discharge line 120 " reflux to refrigerating chamber 300.That is, by the door outlet 232 of ice-making compartment 220 and the air of cold airflow inlet 124 inflow main bodys 100, by discharge line 120 " to refrigerating chamber 300 back side refluxs.This air by evaporimeter (not shown) cooling, is imported in the ice-making compartment 220 again again.

In addition, owing to be formed with guiding rib 121 and support of pipelines structure 130 on cold duct 120, so cold duct 120 is arranged on refrigerating chamber 200 walls and can maintains a certain distance with inner casing I and shell O when inner.

That is, guiding rib 121 is formed on the 120 ' b of connecting pipe portion, 120 that constitutes cold duct 120 " on the b, guiding location cold duct 120 makes it to be positioned at refrigerating chamber 200 wall central interior.Support of pipelines structure 130 is arranged on the 120 ' a of trunk line portion, 120 " outside of a, when making cold duct 120 be positioned at the tram of refrigerating chamber 200 wall inside, prevent that it from moving.

In more detail, side positioning bar 138 guiding input channel 120 ' and discharge lines 120 ", when making them be positioned at refrigerating chamber wall central authorities, prevent moving on its left and right directions; Dowel 136 makes input channel 120 ' and discharge line 120 " link into an integrated entity, prevent to produce each other mobile.

Protection scope of the present invention is not limited to above-mentioned instantiation mode; according to basic fundamental design of the present invention; those of ordinary skills need not can associate some other specific embodiment through creative work, all belong to protection scope of the present invention.

Claims (4)

1. a refrigerator mainly comprises the refrigerating chamber (300) that is used for freezing preservation food; Be arranged on a side of refrigerating chamber, be used for the refrigerating chamber (200) of stored refrigerated food; Selectivity opens and closes the refrigerating chamber door (310) and the refrigerating-chamber door (210,210 ') of refrigerating chamber (300) and refrigerating chamber (200) front openings; It is characterized in that: also comprise the inboard that is arranged on refrigerating-chamber door, make the also ice-making compartment (220) of store ice blocks; Be arranged between refrigerating chamber (200) and the ice-making compartment (220) cold duct (120) of guiding cold air flow communicatively; Be arranged on refrigerating chamber wall inside, guiding location cold duct is provided with the support of pipelines structure (130) of position.

2. refrigerator according to claim 1, it is characterized in that: described cold duct (120) comprising: input channel (120 ') and discharge line (120 ") are formed; input channel (120 ') is the part cold air guiding ice-making compartment (220) of refrigerating chamber (300), and discharge line (120 ") with the cold air guiding refrigerating chamber (300) of discharging in the ice-making compartment; Described support of pipelines structure (130) can be simultaneously fixedly input channel (120 ') and discharge line (120 ").

3. refrigerator according to claim 2 is characterized in that: described support of pipelines structure (130) comprising: input channel support (132), discharge line support (134), dowel (136), side positioning bar (138); Input channel support (132) and the corresponding shape of input channel profile are encircled the input channel outside; Described discharge line support (132) and the corresponding shape of discharge line profile, encircle the discharge line outside; Dowel (136) is connected between input channel support (132) and discharge line (134) support; Side positioning bar (138) is in the outstanding formation in the side of discharge line support (134) and input channel (132) support.

4. refrigerator according to claim 3, it is characterized in that: described side positioning bar (138) is arranged on the both sides of discharge line support (134) and input channel support (132) symmetrically, and direct cold feed channel (120) makes it to be positioned at refrigerating chamber wall central portion.

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