CN206637933U - Refrigerator - Google Patents

Abstract

The purpose of this utility model be to obtain it is a kind of user using when container be difficult to depart from and refrigerator that the structure of the handling that can easily carry out container is simple.Refrigerator of the present utility model possesses container, hang part and tilts maintaining part, and hang part has：Convex portion, side wall of the convex portion out of storeroom inwards protrude；And hook portion, the hook portion is projected toward the outside from the side wall of container and hooking is in convex portion, and tilting maintaining part has：The 1st linear orbit portion, side wall of the 1st orbit portion out of storeroom inwards protrude；And compared to front, inclined inclination is facial downward at rear, the side wall of the calm device of inclination face is projected toward the outside, using hang part as under the inclined heeling condition of center of rotation, inclination face abuts container with the lower surface of the 1st orbit portion when by hook portion hooking in convex portion.

Description

Refrigerator

Technical field

It the utility model is related to and possess in storeroom with the ice of the front container that inclined heeling condition is extracted out downward Case.

Background technology

In existing refrigerator, for the pull-out type container set on refrigerating chamber top, the wall in refrigerator is taken out positioned at this Go out the upper surface of formula container, even if container, which is extracted out, can not also ensure enough aperture areas.

Thus, for example as disclosed in patent document 1, patent document 2, exist a kind of by making pull-out type container Preceding surface is inclined such that the confirmation for the food for easily carrying out being accommodated in pull-out type container or takes out the ice of operation downward Case.

In patent document 1, following refrigerator is disclosed, side wall of the refrigerator in refrigerating chamber possesses draws to container The side wall rails portion led, possess two vessel rail portions for clamping side wall rails portion in container side.

In the technology of patent document 1, protected by the end set in vessel rail portion when pull-out type container is extracted out Hold the hooking shape of front inclined heeling condition downward so that carry out the sky picked and placeed of the storage food in pull-out type container Between expand, can easily pick and place food.

In addition, in patent document 2, following refrigerator is disclosed：Side in the side wall and refrigerating chamber of pull-out type container Wall possesses convex form and orbit portion respectively, if pull-out type container is extracted out forward, slowly declines in front of container, thus comes Expand the food show space of pull-out type container.

Patent document 1：Japanese Unexamined Patent Publication 2007-46807 publications

Patent document 2：Japanese Unexamined Patent Publication 2010-38499 publications

However, in the technology of patent document 1, the fixation of pull-out type container is only carried out in the end in vessel rail portion, because This, is if changing the inclination in front of container when pull-out type container is formed as into heeling condition, the hooking that pull-out type container be present Shape crosses the worry of the hooking shape in the side wall rails portion that the side wall in refrigerating chamber is set.Accordingly, there exist will be taken out as user Go out the problem that pull-out type container comes off when formula container is extracted out.

In addition, in the technology of patent document 2, in order to avoid pull-out type container simply comes off, pull-out type container with Side wall in refrigerating chamber is respectively arranged with convex form and orbit portion corresponding with the convex form.But the construction of the structure becomes Complicated, the handling labor intensive of pull-out type container is obtained, in addition complex-shapedization, therefore the problem of formability variation be present.

Utility model content

The utility model is completed to solve above-mentioned problem, and its object is to obtain one kind in user's use to hold The simple refrigerator of the structures of the handling that device is difficult to come off and can easily carry out container.

Refrigerator involved by the technical solution of the utility model 1 possesses：Container, the container are configured in storeroom, And it can extract out forward；Hang part, when the container is drawn into stop position, container described in the hang part hooking； And tilt maintaining part, the inclination maintaining part hooking is maintained at compared to reference attitude in the container of the hang part and Inclined heeling condition, the hang part have downward in front：Convex portion, side wall of the convex portion out of described storeroom is inwardly Side protrudes；And hook portion, the hook portion is projected toward the outside from the side wall of the container and hooking is protected in the convex portion, described tilt The portion of holding has：The 1st linear orbit portion, side wall of the 1st orbit portion out of described storeroom inwards protrude；After and Side is inclined downward compared to front to tilt face, and the face that tilts is projected toward the outside from the side wall of the container, also, By the hook portion hooking when the convex portion container using the hang part as center of rotation under the inclined heeling condition, The facial lower surface with the 1st orbit portion of the inclination abuts.

Refrigerator described in technical scheme 2 is characterised by, in the refrigerator described in technical scheme 1, the convex portion bag Include the peripheral part of circular shape, the hook portion is included in the circular shape that is contacted with the peripheral part of the circular shape of the convex portion All portions.

Refrigerator described in technical scheme 3 is characterised by, in the refrigerator described in technical scheme 2, is determined when by upper end When justice is 0 degree, the hook portion around the convex portion at least 90 degree of 0 degree~rear side scope including in circular shape All portions.

Refrigerator described in technical scheme 4 is characterised by, in the refrigerator described in technical scheme 3, the hook portion exists Peripheral part around part including the inner peripheral portion includes rear, and compared to front, inclined back sweep is facial upward.

Refrigerator described in technical scheme 5 is characterised by, in the refrigerator described in any one of technical scheme 1~4, With abutting part, the side wall of the abutting part from the container is projected toward the outside, and is received the container is stored to final Receive position when abutted with the convex portion.

Refrigerator described in technical scheme 6 is characterised by, in the refrigerator described in technical scheme 5, has line part, The side wall of the line part from the container is projected toward the outside, and the hook portion is linearly connected with the abutting part, and And guided by the convex portion.

Refrigerator described in technical scheme 7 is characterised by, in the refrigerator described in any one of technical scheme 1~4, Have：The 2nd linear orbit portion, side wall of the 2nd orbit portion out of described storeroom inwards protrude, and described The lower section of 1st orbit portion and the 1st orbit portion are arranged side by side；And block portion, the block portion is from the side wall of container pleurapophysis outwardly Go out, and be sandwiched between the 1st orbit portion and the 2nd orbit portion and be directed along with the movement of the container.

Refrigerator described in technical scheme 8 is characterised by the refrigerator described in technical scheme 5, having：Linearly The 2nd orbit portion, side wall of the 2nd orbit portion out of described storeroom inwards protrude, and in the 1st orbit portion Lower section and the 1st orbit portion are arranged side by side；And block portion, the block portion are projected toward the outside from the side wall of the container, and it is adjoint The movement for the container is sandwiched between the 1st orbit portion and the 2nd orbit portion and is directed.

Refrigerator described in technical scheme 9 is characterised by the refrigerator described in technical scheme 6, having：Linearly The 2nd orbit portion, side wall of the 2nd orbit portion out of described storeroom inwards protrude, and in the 1st orbit portion Lower section and the 1st orbit portion are arranged side by side；And block portion, the block portion are projected toward the outside from the side wall of the container, and it is adjoint The movement for the container is sandwiched between the 1st orbit portion and the 2nd orbit portion and is directed.

Refrigerator described in technical scheme 10 is characterised by, in the refrigerator described in technical scheme 7, the inclined plane Portion is formed at the rear end of the block portion.

Refrigerator described in technical scheme 11 is characterised by, in the refrigerator described in technical scheme 8, the inclined plane Portion is formed at the rear end of the block portion.

Refrigerator described in technical scheme 12 is characterised by, in the refrigerator described in technical scheme 9, the inclination Face is formed at the rear end of the block portion.

Refrigerator described in technical scheme 13 is characterised by, in the refrigerator described in technical scheme 7, in the container Side wall, the block portion and it is described tilt face between formed with spatial portion, enter the container is drawn into stop position And after the container is lifted to make the convex portion cross the hook portion, the convex portion passes through upward in the spatial portion.

Refrigerator described in technical scheme 14 is characterised by, in the refrigerator described in technical scheme 8, in the container Side wall, the block portion and it is described tilt face between formed with spatial portion, enter the container is drawn into stop position And after the container is lifted to make the convex portion cross the hook portion, the convex portion passes through upward in the spatial portion.

Refrigerator described in technical scheme 15 is characterised by, in the refrigerator described in technical scheme 9, in the container Side wall, the block portion and it is described tilt face between formed with spatial portion, enter the container is drawn into stop position And after the container is lifted to make the convex portion cross the hook portion, the convex portion passes through upward in the spatial portion.

Refrigerator according to involved by the utility model, hang part have：Convex portion, side wall court of the raised part out of storeroom Inner side protrudes；And hook portion, above-mentioned hook portion is projected toward the outside from the side wall of container and hooking is in convex portion, and tilting maintaining part has： The 1st linear orbit portion, side wall of above-mentioned 1st orbit portion out of storeroom inwards protrude；And front court is compared at rear The inclination face of inclined downward, the side wall of the calm device of above-mentioned inclination face are projected toward the outside, also, by hook portion hooking in convex portion When container using hang part as under the inclined heeling condition of center of rotation, tilt face and abutted with the lower surface of the 1st orbit portion.

Therefore, under the heeling condition for the container lean that user is used, in convex portion, container is difficult to take off hook portion hooking Fall.In addition, in the handling of container, as long as so that hook portion hooking in convex portion, can not easily carry out the handling of container.

In addition, the heeling condition of the container lean after extracting out can be by the structure of hang part and inclination maintaining part come real It is existing, heeling condition can be retained the container in simple structure.

Thus, it is possible to provide it is a kind of user using when container be difficult to come off and can easily carry out the handling of container The simple refrigerator of structure.

Brief description of the drawings

Fig. 1 is the stereogram for showing the refrigerator involved by embodiment 1 of the present utility model.

Fig. 2 is the explanation figure for the schematic configuration for showing the refrigerator involved by embodiment 1 of the present utility model.

Fig. 3 is to show to set in the refrigerating chamber topmost space of the refrigerator involved by embodiment 1 of the present utility model The front view of pull-out type container.

Fig. 4 A are to show the storage before the pull-out type container of the refrigerator involved by embodiment 1 of the present utility model is extracted out The stereogram of state.

Fig. 4 B are to show the inclination after the pull-out type container of the refrigerator involved by embodiment 1 of the present utility model is extracted out The stereogram of state.

Fig. 5 A are the storages before the extraction for the pull-out type container for showing the refrigerator involved by embodiment 1 of the present utility model The explanation figure of state.

Fig. 5 B are maximums when showing the pull-out type container extraction by the refrigerator involved by embodiment 1 of the present utility model The explanation figure of extraction state.

Fig. 5 C are to show the inclination after the pull-out type container of the refrigerator involved by embodiment 1 of the present utility model is extracted out The explanation figure of state.

Fig. 6 is the action shape for showing to unload in the pull-out type container of the refrigerator involved by embodiment 1 of the present utility model The explanation figure of state.

Fig. 7 A are the storages before the extraction for the pull-out type container for showing the refrigerator involved by embodiment 2 of the present utility model The explanation figure of state.

Fig. 7 B are maximums when showing the pull-out type container extraction by the refrigerator involved by embodiment 2 of the present utility model The explanation figure of extraction state.

Fig. 7 C are to show the inclination after the pull-out type container of the refrigerator involved by embodiment 2 of the present utility model is extracted out The explanation figure of state.

Fig. 8 A are shown the pull-out type container of the refrigerator involved by embodiment 2 of the present utility model by the 1st method The explanation figure of the 1st operating state unloaded.

Fig. 8 B are shown the pull-out type container of the refrigerator involved by embodiment 2 of the present utility model by the 1st method The explanation figure of the 2nd operating state unloaded.

Fig. 9 A are shown the pull-out type container of the refrigerator involved by embodiment 2 of the present utility model by the 2nd method The explanation figure of the 1st operating state unloaded.

Fig. 9 B are shown the pull-out type container of the refrigerator involved by embodiment 2 of the present utility model by the 2nd method The explanation figure of the 2nd operating state unloaded.

Fig. 9 C are shown the pull-out type container of the refrigerator involved by embodiment 2 of the present utility model by the 2nd method The explanation figure of the 3rd operating state unloaded.

Fig. 9 D are shown the pull-out type container of the refrigerator involved by embodiment 2 of the present utility model by the 2nd method The explanation figure of the 4th operating state unloaded.

Embodiment

Hereinafter, embodiment of the present utility model is illustrated based on accompanying drawing.

In addition, in the various figures, the part for being labelled with identical reference is part identically or comparably, this is illustrating All it is general in the full text of book.

Also, the form of the inscape shown in specification full text simply illustrates eventually, is not limited to these records.

Embodiment 1.

Fig. 1 is the stereogram for showing the refrigerator 100 involved by embodiment 1 of the present utility model.

As shown in figure 1, refrigerator 100 is two gate-type refrigerators, possesses refrigerating chamber 1 on top, possess in bottom as storeroom Refrigerating chamber 2.

Fig. 2 is the explanation figure for the schematic configuration for showing the refrigerator 100 involved by embodiment 1 of the present utility model.

As shown in Fig. 2 refrigerator 100 is internally provided with a dividing plate 4 in the interior case of refrigerator main body 3, and possess refrigerating chamber 1 with Refrigerating chamber 2, the different two spaces of temperature band are divided into according to the occupation mode of user.

Refrigerator main body 3 is foam filled between the outer container of steel plate and the interior case of resin-made heat-barrier material.

In the lower backside of refrigerator main body 3, the compressor (not shown) being compressed to refrigerant is provided with.In refrigerating chamber 1 inboard face is provided with cooler (not shown).On the preceding surface of the cooler of refrigerating chamber 1, it is provided with will be by cooler The refrigerating chamber wind path for the pressure fan (not shown) that cold air after cooling is blown towards each room.Refrigerating chamber wind path and refrigerating chamber it is not shown Outlet be connected.

In the inboard face of refrigerating chamber 2, the refrigerating chamber wind path (not shown) branched out from refrigerating chamber wind path is provided with.Refrigerating chamber Wind path is connected with the outlet (not shown) of refrigerating chamber.

On the preceding surface of refrigerating chamber 1, opening and closing is provided with refrigerating chamber door 5 freely, and the refrigerating chamber door 5 has in right-hand end The rotary shaft extended along vertical.In the inner side of refrigerating chamber door 5, two layers basket receiver 6a, 6b are provided with.

In addition, shelf 7 is provided with refrigerating chamber 1.

On the preceding surface of refrigerating chamber 2, opening and closing is provided with refrigerating-chamber door 8 freely, and the refrigerating-chamber door 8 has in right-hand end The rotary shaft extended along vertical.In the inner side of refrigerating-chamber door 8, three layers of basket receiver 9a, 9b, 9c are provided with.

In addition, shelf 10a, 10b are provided with refrigerating chamber 2.

In refrigerating chamber 2, there is pull-out type container 11 in foot space configuration.

Also, in refrigerating chamber 2, there is pull-out type container 12 in topmost space configuration.

Become by compressor compresses the refrigerant gas of HTHP by refrigerator main body 3 it is foam filled have it is heat-insulated Condenser (not shown) that the part of material is set and radiate, turn into liquid refrigerant.Liquid refrigerant passes through in refrigerator main body 3 Lower backside set drier (not shown), depressurized by capillary (not shown), and be admitted to cooler and gasify.This When, refrigerant absorbs heat to the heat of surrounding, and thus, the gas around cooler is cooled.

Cold air after being cooled down by cooler flows into the inboard face being arranged in refrigerating chamber 1 and is arranged at the preceding surface of cooler The refrigerating chamber wind path for possessing pressure fan.Row of the cold air flowed into after refrigerating chamber wind path from the preceding surface for being arranged at refrigerating chamber wind path Outlet is flowed into refrigerating chamber 1.

In addition, do not scheme from the cold air that refrigerating chamber wind path distributes from the preceding surface for being arranged at refrigerating chamber wind path (not shown) The outlet shown is flowed into refrigerating chamber 2.

Fig. 3 is shown in the topmost space of the refrigerating chamber 2 of the refrigerator 100 involved by embodiment 1 of the present utility model The front view of the pull-out type container 12 of setting.Fig. 4 A are to show the refrigerator 100 involved by by embodiment 1 of the present utility model The stereogram of receiving state before the extraction of pull-out type container 12.Fig. 4 B are shown involved by embodiment 1 of the present utility model Refrigerator 100 pull-out type container 12 extract out after heeling condition stereogram.

As shown in Fig. 3~Fig. 4 B, configure the pull-out type container 12 in the topmost space of refrigerating chamber 2 and be configured in refrigerating chamber In 2, and in the box-like for the upper opening that can be extracted out forward.

For pull-out type container 12, the wall of the dividing plate 4 in refrigerator 100 is located at the upper surface of the pull-out type container 12, i.e., Just pull-out type container 12 is extracted out, can not also ensures enough aperture areas.Therefore, as shown in Figure 4 B, pull-out type container 12 exists Heeling condition is maintained at after extraction, so as to ensure aperture area.

Here, on refrigerator 100, the direction that pull-out type container 12 is extracted out is front, in storage pull-out type container 12 Side is rear.

Before Fig. 5 A are the extraction for the pull-out type container 12 for showing the refrigerator 100 involved by embodiment 1 of the present utility model Receiving state explanation figure.Fig. 5 B are shown the pull-out type appearance of the refrigerator 100 involved by embodiment 1 of the present utility model The explanation figure of maximum extraction state when device 12 is extracted out.Fig. 5 C are to show the ice involved by by embodiment 1 of the present utility model The explanation figure of heeling condition after the extraction of pull-out type container 12 of case 100.

As shown in Fig. 5 A~Fig. 5 C, refrigerator 100 possesses hang part 20 with tilting maintaining part 30.

Hang part 20 is that hooking is taken out when pull-out type container 12 to be formed as being drawn to the maximum extraction state of stop position Go out the part of formula container 12.

Hang part 20 has convex portion 21 and hook portion 22.

Side wall of the convex portion 21 out of refrigerating chamber 2 inwards protrudes, and is formed as the circle of peripheral part for including circular shape.

Hook portion 22 is projected toward the outside from the side wall upper part of pull-out type container 12, and hooking is in convex portion 21.Hook portion 22 is formed It is the inner peripheral portion 22a of circular shape for including contacting with the peripheral part of the circular shape of convex portion 21.Specifically, if upper end is determined Justice is 0 degree, then scope of the hook portion 22 at least in 90 degree of 0 degree~rear side around convex portion 21 includes the inner peripheral portion of circular shape 22a and bend.

Moreover, hook portion 22 is formed as：Include the inner peripheral portion of circular shape in the scope at least in 90 degree of 0 degree~rear side Peripheral part around 22a part, including rear compared to front upward it is inclined towards obliquely downward to back sweep face Portion 22b.Back sweep face 22b is formed at inner peripheral portion 22a rear.

In addition, pull-out type container 12 has an abutting part 23, the abutting part 23 from the side wall upper part of pull-out type container 12 outwardly Side protrudes, and the abutting part 23 abuts with convex portion 21 when pull-out type container 12 is stored to final reception position.

Abutting part 23 is the part extended along vertical.

Also, pull-out type container 12 has a line part 24, the line part 24 from the side wall upper part of pull-out type container 12 outwardly Side protrudes, and hook portion 22 is linearly connected with abutting part 23, and lower surface is guided by convex portion 21.

Line part 24 is guided by convex portion 21, and thus, pull-out type container 12 is flatly drawn to from final reception position to stop Stop bit is put.

It is that pull-out type container 12 of the hooking in hang part 20 is maintained at into compared with reference attitude and preceding to tilt maintaining part 30 The part of side's heeling condition inclined downward.

Tilting maintaining part 30 has the 1st orbit portion 31 with tilting face 32.

1st orbit portion 31 is inwards prominent horizontally extending linear in the side wall out of refrigerating chamber 2.

Face 32 is tilted to be projected toward the outside from the side wall of pull-out type container 12, and when by the hooking of hook portion 22 in convex portion 21 Pull-out type container 12 is under the heeling condition after center of rotation tilts with hang part 20, tilts facial 32 and the 1st orbit portion 31 Lower surface 31a is abutted.It is that the front inclined face towards oblique direction downward is compared at rear to tilt face 32.

Moreover, refrigerator 100 has the 2nd linear orbit portion 33, side wall court of the 2nd orbit portion 33 out of refrigerating chamber 2 Inner side protrudes, and horizontally extending side by side in the lower section of the 1st orbit portion 31 and the 1st orbit portion 31.

In addition, pull-out type container 12 has block portion 34, the block portion 34 is projected toward the outside from the side wall of pull-out type container 12, and And it is sandwiched between the 1st orbit portion 31 and the 2nd orbit portion 33 and is directed along with moving for pull-out type container 12.

Block portion 34 be created as being sandwiched between the 1st orbit portion 31 and the 2nd orbit portion 33 it is width, prolong in the horizontal direction The linear track component stretched.Bottom of the block portion 34 along pull-out type container 12 is formed.

Block portion 34 is sandwiched between the 1st orbit portion 31 and the 2nd orbit portion 33 and is directed, thus, the quilt of pull-out type container 12 Stop position is flatly drawn to from final reception position.

That is, guided on pull-out type container 12, line part 24 by convex portion 21, block portion 34 is sandwiched in the 1st orbit portion 31 and the 2nd Between orbit portion 33 and it is directed, thus, pull-out type container 12 is directed at two positions separated along the vertical direction and can It is extracted in the horizontal direction with not making oblique attitude.

In the rear end of block portion 34 formed with inclination face 32.

Tilting face 32, there is rear to compare front inclined angle downward, the inclination the 32 and the 1st orbit portion 31 of face Lower surface 31a contact angle be directly reflected as pull-out type container 12 heeling condition angle.Therefore, heeling condition Angle can utilize and tilt the angle of inclination of face 32 and suitably set.

As shown in Figure 5A, it is incorporated in pull-out type container 12 under the receiving state in refrigerating chamber 2, is formed in line part 24 The abutting parts 23 of front ends contacted with convex portion 21, and block portion 34 is in and is sandwiched in the 1st orbit portion 31 and the 2nd orbit portion 33 Between and the state that is directed, thus, pull-out type container 12 is contained to the inboard in refrigerating chamber 2.

As shown in Figure 5 B, if pull-out type container 12 is extracted out, the lower surface of line part 24 is guided by convex portion 21, and block Portion 34 is sandwiched between the 1st orbit portion 31 and the 2nd orbit portion 33 and is directed, and thus, pull-out type container 12 is along the vertical direction Two positions of separation are directed without being extracted in the horizontal direction with making oblique attitude.

Moreover, if pull-out type container 12 is drawn to stop position, as shown in Figure 5 B, the hooking of hook portion 22 is in convex portion 21. Therefore, pull-out type container 12 will not be drawn to the position closer to the front compared to stop position.Now, block portion 34 is in the 1st track The part for tilting face 32 is remained between the orbit portion 33 of portion 31 and the 2nd.

As shown in Figure 5 C, from the state of Fig. 5 B after pull-out type container 12 turns into maximum extraction state, pull-out type container 12 start to make the front of pull-out type container 12 to decline because of deadweight.Specifically, pull-out type container 12 is rotation with hang part 20 Center and front rotates downward compared to rear.

Now, the convex portion 21 on composition hang part 20 and hook portion 22, because the peripheral part of convex portion 21 is in circular shape, and Hooking is also in circular shape in the inner peripheral portion 22a of the hook portion 22 of convex portion 21, therefore can be rotated with the few state of resistance to sliding, resistance to Long property is excellent.

Moreover, in be partly between the 1st orbit portion 31 and the 2nd orbit portion 33 it is state, be formed at block portion 34 inclination face 32 is contacted by the rotation of pull-out type container 12 with the lower surface 31a of the 1st orbit portion 31.

Thus, the front of pull-out type container 12 inclined heeling condition downward is formed as.

That is, the heeling condition on pull-out type container 12, by the hooking of hook portion 22 in convex portion 21, and tilt face 32 with The lower surface 31a contacts of 1st orbit portion 31, can keep the state.

So, only by possessing hang part 20 and tilting maintaining part 30, without making pull-out type container 12 or refrigerating chamber 2 Interior shape becomes complicated, it becomes possible to pull-out type container 12 is maintained at into heeling condition with simple structure.

Fig. 6 is to show to move what the pull-out type container 12 of the refrigerator 100 involved by embodiment 1 of the present utility model unloaded Make the explanation figure of state.

As shown in fig. 6, from the state of Fig. 5 B after pull-out type container 12 turns into maximum extraction state, user's arrow as shown Head like that by pull-out type container 12, lift forward by oblique upper.Here, if upper end is defined as into 0 degree, hook portion 22 is in convex portion 21 Around scope at least in 90 degree of 0 degree~rear side include the inner peripheral portion 22a of circular shape and bend.Therefore, if user such as Above-mentioned like that to lift pull-out type container 12, then hook portion 22 crosses convex portion 21, can unload pull-out type container 12.This be because For：If upper end is defined as into 0 degree, the bent portion of hook portion 22 is only around convex portion 21 at least in 90 degree of 0 degree~rear side Scope including circular shape inner peripheral portion 22a and bend, and without amount of bow more than 0 degree~rear side 180 degree.

When hook portion 22 is crossed convex portion 21 the pull-out type container 12 is lifted, facial 32 and the 1st orbit portion 31 is tilted Contact, but do not turn into the obstacle lifted of pull-out type container 12.That is, the part for tilting face 32 can be in the 1st orbit portion Slided upward between 31 and the 2nd orbit portion 33.

Thus, user can simply unload pull-out type container 12.

In addition, in user installation pull-out type container 12, if pull-out type container 12 is pushed into the horizontal direction to incline Inclined plane part 32 is inserted between the 1st orbit portion 31 and the 2nd orbit portion 33, then convex portion 21 is i.e. rear square by the peripheral part in hook portion 22 Into rear inclined upward compared to front tilt facial 22b guiding.Moreover, pull-out type container 12 is lifted, to cause block Portion 34 enters between the 1st orbit portion 31 and the 2nd orbit portion 33 and hook portion 22 crosses convex portion 21.

Thus, user can simply install pull-out type container 12.

Embodiment 2.

In embodiment 2, the shape of hang part and inclination maintaining part is different from the embodiment described above.In embodiment In 2, its characteristic is only recorded, omits other parts.

Before Fig. 7 A are the extraction for the pull-out type container 12 for showing the refrigerator 100 involved by embodiment 2 of the present utility model Receiving state explanation figure.Fig. 7 B are shown the pull-out type appearance of the refrigerator 100 involved by embodiment 2 of the present utility model The explanation figure of maximum extraction state when device 12 is extracted out.Fig. 7 C are to show the ice involved by by embodiment 2 of the present utility model The explanation figure of heeling condition after the extraction of pull-out type container 12 of case 100.

As shown in Fig. 7 A~Fig. 7 C, refrigerator 100 possesses hang part 120 with tilting maintaining part 130.

Hang part 120 is that hooking is taken out when pull-out type container 12 to be formed as being drawn to the maximum extraction state of stop position Go out the part of formula container 12.

Hang part 120 has convex portion 121 and hook portion 122.

Side wall of the convex portion 121 out of refrigerating chamber 2 inwards protrudes, and is formed as the circle of peripheral part for including circular shape Shape.

Hook portion 122 is projected toward the outside from the lower sidewall of pull-out type container 12, and hooking is in convex portion 121.The shape of hook portion 122 The inner peripheral portion 122a of the circular shape contacted as the peripheral part including the circular shape with convex portion 121.Specifically, if will be upper End is defined as 0 degree, then hook portion 122 around convex portion 121 at least 90 degree of 0 degree~rear side scope including circular shape Inner peripheral portion 122a and bend.

Moreover, hook portion 122 includes the inner peripheral portion 122a of circular shape and curved in the scope at least in 90 degree of 0 degree~rear side For the peripheral part of bent portion formed with block portion 134, the block portion 134 has lower end and until the 1st orbit portion of hook portion 122 Upper end untill the position of 131 lower surface.

In addition, pull-out type container 12 has abutting part 123, lower sidewall court of the abutting part 123 from pull-out type container 12 It is protruding outside, and abutted when pull-out type container 12 is stored to final reception position with convex portion 121.

Abutting part 123 have make the shape that hook portion 122 symmetrically forms relative to vertical line in fore-and-aft direction line.

Also, pull-out type container 12 has line part 124, lower sidewall court of the line part 124 from pull-out type container 12 It is protruding outside, and hook portion 122 is linearly connected with abutting part 123, and lower surface is guided by convex portion 121.

Guided by line part 124 by convex portion 121, pull-out type container 12 is flatly drawn to from final reception position to stop Stop bit is put.

Tilt maintaining part 130 be hooking is maintained at compared with reference attitude in the pull-out type container 12 of hang part 120 and The part of front inclined heeling condition downward.

Tilting maintaining part 130 has the 1st orbit portion 131 with tilting face 132.

1st orbit portion 131 is inwards prominent horizontally extending linear in the side wall out of refrigerating chamber 2.

Face is tilted 132 to be projected toward the outside from the side wall of pull-out type container 12, and by the hooking of hook portion 122 in convex portion Under heeling condition after pull-out type container 12 is tilted with hang part 120 for center of rotation when 121, the following table with the 1st orbit portion 131 Face 131a is abutted.It is that the front inclined face towards oblique direction downward is compared at rear to tilt face 132.Tilt face 132 are formed in the side wall inboard portion of pull-out type container 12 and form the part in the trapezoidal shape of bottom.

Tilting face 132, there is rear to compare front inclined angle downward, the inclination the 132 and the 1st orbit portion of face The angle of 131 lower surface 131a contacts is directly reflected as the angle of the heeling condition of pull-out type container 12.Therefore, it is skewed The angle of state can utilize the angle of inclination for tilting face 132 suitably to set.

Moreover, refrigerator 100 has the 2nd linear orbit portion 133, side wall of the 2nd orbit portion 133 out of refrigerating chamber 2 Inwards protrude, and it is horizontally extending side by side in the lower section of the 1st orbit portion 131 and the 1st orbit portion 131.2nd track Portion 133 is short, and is not extend to the position compared to the 1st orbit portion 131 on the front.

In addition, pull-out type container 12 has block portion 134, the block portion 134 is projected toward the outside from the side wall of pull-out type container 12, And it is sandwiched between the 1st orbit portion 131 and the 2nd orbit portion 133 and is directed along with moving for pull-out type container 12.

Block portion 134 has the lower end of hook portion 122 and untill the lower surface 131a of the 1st orbit portion 131 position Upper end, and it is created as the part of the trapezoidal shape for the width being sandwiched between the 1st orbit portion 131 and the 2nd orbit portion 133.Block Portion 134 is integrally formed with forming the hook portion 122 in the lower sidewall of pull-out type container 12, abutting part 123 and line part 124. The upper surface of block portion 134 is formed as rear and compares front inclined inclined upper surface portion 134a downward.

Block portion 134 is sandwiched between the 1st orbit portion 131 and the 2nd orbit portion 133 and is directed, thus, pull-out type container 12 Stop position is flatly drawn to from final reception position.

That is, guided on pull-out type container 12, line part 124 by convex portion 121, block portion 134 is sandwiched in the 1st orbit portion 131 Between the 2nd orbit portion 133 and it is directed, thus, pull-out type container 12 is directed at two positions separated along the longitudinal direction And it is extracted in the horizontal direction while oblique attitude can not be made.

In the side wall of pull-out type container 12, in block portion 134 and between tilting face 132, formed with the sky along vertical communication Between portion 135.

Spatial portion 135 is configured to：Pull-out type container 12 is being drawn to stop position and then is lifting pull-out type container 12 And after convex portion 121 is crossed hook portion 122, convex portion 121 passes through upward in the spatial portion 135.Therefore, the level of spatial portion 135 The width in direction is bigger than the diameter of convex portion 121.

As shown in Figure 7 A, on pull-out type container 12, the storage shape being incorporated in the pull-out type container 12 in refrigerating chamber 2 Under state, the abutting part 123 formed in the front ends of line part 124 contacts with convex portion 121, and block portion 134 is in and is sandwiched in The state being directed between 1st orbit portion 131 and the 2nd orbit portion 133, thus, the pull-out type container 12 is accommodated in refrigerating chamber 2 Interior inboard.

As shown in Figure 7 B, if pull-out type container 12 is extracted out, line part 124 is guided by convex portion 121, and block portion 134 It is sandwiched between the 1st orbit portion 131 and the 2nd orbit portion 133 and is directed, thus, pull-out type container 12 is dividing along the longitudinal direction From two positions be directed without being extracted in the horizontal direction with making oblique attitude.

Moreover, on pull-out type container 12, if being drawn to stop position, as shown in Figure 7 B, the hooking of hook portion 122 is in convex Portion 121.Therefore, pull-out type container 12 will not be drawn to the position compared to stop position on the front.Now, block portion 134 from the 1st Deviate between the orbit portion 133 of orbit portion 131 and the 2nd.In addition, the position compared to block portion 134 rearward it is small-sized formed incline Inclined plane part 132 is present between the 1st orbit portion 131 and the 2nd orbit portion 133.

On block portion 134, even if the block portion 134 is deviate from between the 1st orbit portion 131 and the 2nd orbit portion 133, make to take out In the case of going out the return receiving state of formula container 12, because front court is compared at the inclined upper surface portion 134a of block portion 134 rear Inclined downward and formed smaller, therefore can continuously readily enter the 1st orbit portion 131 and the 2nd with tilting facial 132 phases Between orbit portion 133.

As seen in figure 7 c, from the state of Fig. 7 B after pull-out type container 12 turns into maximum extraction state, pull-out type container 12 start to make the front of pull-out type container 12 to decline because of deadweight.Specifically, pull-out type container 12 is rotation with hang part 120 Center and front rotates downward compared to rear.

Now, the convex portion 121 on composition hang part 120 and hook portion 122, because the peripheral part of convex portion 121 is in circular arc Shape, and hooking in the inner peripheral portion 122a of the hook portion 122 of convex portion 121 be also in circular shape, therefore can be with the few shape of resistance to sliding State rotates, excellent in te pins of durability.

Moreover, pass through in the inclination face 132 for entering to the state between the 1st orbit portion 131 and the 2nd orbit portion 133 The rotation of pull-out type container 12 and contacted with the lower surface 131a of the 1st orbit portion 131.

Thus, be formed as making the front of pull-out type container 12 inclined heeling condition downward.

That is, the heeling condition on pull-out type container 12, by the hooking of hook portion 122 in convex portion 121, and face is tilted 132 contact with the lower surface 131a of the 1st orbit portion 131, can keep the state.

So, only by possessing hang part 120 and tilting maintaining part 130, without making pull-out type container 12 or refrigeration Shape in room 2 becomes complicated, it becomes possible to pull-out type container 12 is maintained at into heeling condition with simple structure.

Fig. 8 A are to show to hold the pull-out type of the refrigerator 100 involved by embodiment 2 of the present utility model by the 1st method The explanation figure for the 1st operating state that device 12 unloads.Fig. 8 B are shown the institute of embodiment 2 of the present utility model by the 1st method The explanation figure for the 2nd operating state that the pull-out type container 12 for the refrigerator 100 being related to unloads.

As shown in Figure 8 A, from the state that pull-out type container 12 turns into Fig. 7 B of maximum extraction state, user is by pull-out type Container 12 lifts upward.Here, if upper end is defined as into 0 degree, hook portion 122 around the convex portion 121 at least 0 degree~after The scope of square 90 degree of side includes the inner peripheral portion 122a of circular shape and bent.Thus, if as described above by pull-out type container 12 Lift, then hook portion 122 crosses convex portion 121.Because：If upper end is defined as into 0 degree, the bent portion of hook portion 122 only exists Scope around convex portion 121 at least in 90 degree of 0 degree~rear side includes the inner peripheral portion 122a of circular shape and bent, and does not have There is amount of bow more than 0 degree~rear side 180 degree.

When hook portion 122 is crossed convex portion 121 the pull-out type container 12 is lifted, facial 132 and the 1st orbit portion is tilted 131 separation, the obstacle lifted of pull-out type container 12 will not be turned into.That is, tilting face 132 can be in the 1st orbit portion 131 and the Slided upward between 2 orbit portions 133.

As shown in Figure 8 B, from convex portion 121 is crossed Fig. 8 A state of hook portion 122, user is by the court of pull-out type container 12 Face side is extracted out in the horizontal direction, thus unloads pull-out type container 12.Now, tilt face 132 from the 1st orbit portion 131 with Deviate between 2nd orbit portion 133.

Here, it is necessary to which pull-out type container 12 is extracted out towards face side with more than extracted amount X1 amount in the 1st method.

Thus, user can simply unload pull-out type container 12.

Fig. 9 A are to show to hold the pull-out type of the refrigerator 100 involved by embodiment 2 of the present utility model by the 2nd method The explanation figure for the 1st operating state that device 12 unloads.Fig. 9 B are shown the institute of embodiment 2 of the present utility model by the 2nd method The explanation figure for the 2nd operating state that the pull-out type container 12 for the refrigerator 100 being related to unloads.Fig. 9 C are to show to incite somebody to action by the 2nd method The explanation figure for the 3rd operating state that the pull-out type container 12 of refrigerator 100 involved by embodiment 2 of the present utility model unloads. Fig. 9 D are to show to unload the pull-out type container 12 of the refrigerator 100 involved by embodiment 2 of the present utility model by the 2nd method The 4th operating state explanation figure.

As shown in Figure 9 A, from the state that pull-out type container 12 turns into Fig. 7 B of maximum extraction state, user is by pull-out type Container 12 lifts and convex portion 121 is crossed hook portion 122 upward.Afterwards, arrow is such as shown, makes pull-out type container 12 down Side moves so that convex portion 121 passes through spatial portion 135.

Thus, as shown in Figure 9 B, the spatial portion 135 that convex portion 121 passes through pull-out type container 12.

As shown in Figure 9 C, after convex portion 121 is by the spatial portion 135 of pull-out type container 12, arrow is such as shown by user The front side of pull-out type container 12 is set to rotate downward.

As shown in fig. 9d, user makes the front side of pull-out type container 12 tilt downward and unload pull-out type container 12.

Here, pull-out type container 12 is removed towards face side with extracted amount X2 extractions.

Thus, can not be with being arranged in refrigerating-chamber door 8 in the state of user opens refrigerating-chamber door 8 after 90 degree The receiver 9a of side unloads pull-out type container 12 to collision.

So, in the 2nd method, the extracted amount X2 of pull-out type container 12 can be made fewer than the extracted amount X1 of the 1st method, i.e., Just pull-out type container 12 can also be unloaded in narrow space.

Embodiment 1,2 more than, hang part 20,120 have convex portion 21,121 and hook portion 22,122, tilt and keep Portion 30,130 has the 1st orbit portion 31,131 with tilting face 32,132.According to the structure, hold in pull-out type used in user Under 12 inclined heeling condition of device, in convex portion 21,121, pull-out type container 12 is difficult to come off for hook portion 22,122 hookings.In addition, During the handling of pull-out type container 12, as long as only make it that hooking in convex portion 21,121, can not entered easily hook portion 22,122 The handling of row pull-out type container 12.

In addition, the 12 inclined heeling condition of pull-out type container after extracting out can be protected by hang part 20,120 and inclination The structure in portion 30,130 is held to realize, pull-out type container 12 can be maintained at by heeling condition with simple structure.

It is difficult to come off and can be easily taken out thus, it is possible to provides the pull-out type container 12 when user is used Go out the simple refrigerator 100 of the structure of the handling of formula container 12.

Convex portion 21,121 includes the peripheral part of circular shape, and hook portion 22,122 includes and the circular shape of convex portion 21,121 Inner peripheral portion 22a, 122a of the circular shape of peripheral part contact.According to the structure, the convex portion 21,121 of hang part 20,120 and Hook portion 22,122 can rotate while resistance to sliding is reduced under hooking state, and durability improves, wherein, hang part 20,120 is formed Pull-out type container 12 is set to be inclined to the center of rotation of heeling condition.

If upper end is defined as into 0 degree, hook portion 22,122 is around convex portion 21,121 at least in 90 degree of 0 degree~rear side Scope include inner peripheral portion 22a, 122a of circular shape.According to the structure, in user in use, hook portion 22,122 hookings are in convex Portion 21,121, pull-out type container 12 is difficult to come off.In addition, hook portion 22,122 easily crosses convex portion 21,121, can easily enter The handling of row pull-out type container 12.

Peripheral part of the hook portion 22 around the part including inner peripheral portion 22a, including rear is compared to front upward Inclined back sweep face 22b.According to the structure, in user installation pull-out type container 12, convex portion 21 is formed from hook portion Front inclined back sweep face 22b guiding upward is compared at 22 peripheral part and rear.Thus, to cause hook portion 22 to cross The mode of convex portion 21 is lifted, and user can simply install pull-out type container 12.

With abutting part 23,123, above-mentioned abutting part 23,123 is projected toward the outside from the side wall of pull-out type container 12, and When pull-out type container 12 is stored to final reception position, above-mentioned abutting part 23,123 abuts with convex portion 21,121.According to this Structure, it is incorporated in pull-out type container 12 under the receiving state in refrigerating chamber 2, abutting part 23,123 connects with convex portion 21,121 Touch, so as to provide the position of pull-out type container 12.

With line part 24,124, above-mentioned line part 24,124 is projected toward the outside from the side wall of pull-out type container 12, by hook Portion 22,122 is linearly connected with abutting part 23,123, and lower surface is guided by convex portion 21,121.According to the structure, directly Line portion 24,124 is guided by convex portion 21,121, and pull-out type container 12 is extracted with not making oblique attitude in the horizontal direction.

With in the lower section of the 1st orbit portion 31,131 linear 2nd orbit portion arranged side by side with the 1st orbit portion 31,131 33rd, 133, and it is sandwiched in the block portion 34,134 being directed between the 1st orbit portion 31,131 and the 2nd orbit portion 33,133.Root According to the structure, block portion 34,134 is sandwiched between the 1st orbit portion 31,131 and the 2nd orbit portion 33,133 and is directed, pull-out type Container 12 is extracted with not making oblique attitude in the horizontal direction.

Tilt the rear end that face 32 is formed at block portion 34.According to the structure, inclination face 32 and the shape of block portion 34 can be made It is integrally formed, is formed as simple structure.

In the side wall of pull-out type container 12, in block portion 134 and tilt between face 132 formed with spatial portion 135.According to this Structure, pull-out type container 12 is being drawn to stop position and then pull-out type container 12 is lifted and convex portion 121 is crossed hook portion After 122, convex portion 121 can pass through upward in spatial portion 135.Thus, user can be in the extracted amount of pull-out type container 12 The front side of pull-out type container 12 is set to tilt downward and unload pull-out type container 12 in the state of X2.Therefore, it is possible to make to take out It is few to go out the extracted amount X2 of formula container 12, even if can also be unloaded pull-out type container 12 in narrow space.Thus, will in user In the state of after 90 degree of the opening of refrigerating-chamber door 8, it be able to not will be taken out with the receiver 9a collisions for the inner side for being arranged on refrigerating-chamber door 8 Go out formula container 12 to unload.

In addition, the utility model can also be by pull-out type container application in the other parts of refrigerator.In addition, using this practicality New refrigerator is also not necessarily limited to two gate-type refrigerators.

Description of reference numerals

1：Refrigerating chamber；2：Refrigerating chamber；3：Refrigerator main body；4：Dividing plate；5：Refrigerating chamber door；6a：Receiver；6b：Receiver；7： Shelf；8：Refrigerating-chamber door；9a：Receiver；9b：Receiver；9c：Receiver；10a：Shelf；10b：Shelf；11：Pull-out type holds Device；12：Pull-out type container；20：Hang part；21：Convex portion；22：Hook portion；22a：Inner peripheral portion；22b：Back sweep face；23：Support Socket part；24：Line part；30：Tilt maintaining part；31：1st orbit portion；31a：Lower surface；32：Tilt face；33：2nd track Portion；34：Block portion；100：Refrigerator；120：Hang part；121：Convex portion；122：Hook portion；122a：Inner peripheral portion；123：Abutting part；124： Line part；130：Tilt maintaining part；131：1st orbit portion；131a：Lower surface；132：Tilt face；133：2nd orbit portion； 134：Block portion；134a：Inclined upper surface portion；135：Spatial portion.

Claims (15)

1. a kind of refrigerator, it is characterised in that possess：

Container, the container are configured in storeroom, and can be extracted out forward；

Hang part, when the container is drawn into stop position, container described in the hang part hooking；And

Tilt maintaining part, the inclination maintaining part hooking is maintained at compared to reference attitude in the container of the hang part and Front inclined heeling condition downward,

The hang part has：Convex portion, side wall of the convex portion out of described storeroom inwards protrude；And hook portion, it is described Hook portion is projected toward the outside from the side wall of the container and hooking is in the convex portion,

The inclination maintaining part has：The 1st linear orbit portion, side wall court of the 1st orbit portion out of described storeroom Inner side protrudes；It is described to tilt side wall court of the face from the container and compared to front, inclined inclination is facial downward at rear It is protruding outside, also, the container tilts by center of rotation of the hang part when by the hook portion hooking in the convex portion The heeling condition under, it is described inclination the facial lower surface with the 1st orbit portion abut.

2. refrigerator according to claim 1, it is characterised in that

The convex portion includes the peripheral part of circular shape,

The hook portion includes the inner peripheral portion of the circular shape contacted with the peripheral part of the circular shape of the convex portion.

3. refrigerator according to claim 2, it is characterised in that

When upper end is defined as into 0 degree, the hook portion is around the convex portion at least in the scope bag of 90 degree of 0 degree~rear side Include the inner peripheral portion of circular shape.

4. refrigerator according to claim 3, it is characterised in that

It is inclined upward compared to front that peripheral part of the hook portion around the part including the inner peripheral portion includes rear Back sweep face.

5. according to refrigerator according to any one of claims 1 to 4, it is characterised in that

With abutting part, the side wall of the abutting part from the container is projected toward the outside, and is stored by the container to most Abutted during whole reception position with the convex portion.

6. refrigerator according to claim 5, it is characterised in that

With line part, the side wall of the line part from the container is projected toward the outside, and is in by the hook portion and the abutting part Linearly connect, and guided by the convex portion.

7. according to refrigerator according to any one of claims 1 to 4, it is characterised in that have：

The 2nd linear orbit portion, side wall of the 2nd orbit portion out of described storeroom inwards protrude, and described The lower section of 1st orbit portion and the 1st orbit portion are arranged side by side；And block portion, the block portion is from the side wall of container pleurapophysis outwardly Go out, and be sandwiched between the 1st orbit portion and the 2nd orbit portion and be directed along with the movement of the container.

8. refrigerator according to claim 5, it is characterised in that have：

The 2nd linear orbit portion, side wall of the 2nd orbit portion out of described storeroom inwards protrude, and described The lower section of 1st orbit portion and the 1st orbit portion are arranged side by side；And block portion, the block portion is from the side wall of container pleurapophysis outwardly Go out, and be sandwiched between the 1st orbit portion and the 2nd orbit portion and be directed along with the movement of the container.

9. refrigerator according to claim 6, it is characterised in that have：

The 2nd linear orbit portion, side wall of the 2nd orbit portion out of described storeroom inwards protrude, and described The lower section of 1st orbit portion and the 1st orbit portion are arranged side by side；And block portion, the block portion is from the side wall of container pleurapophysis outwardly Go out, and be sandwiched between the 1st orbit portion and the 2nd orbit portion and be directed along with the movement of the container.

10. refrigerator according to claim 7, it is characterised in that

The rear end for tilting face and being formed at the block portion.

11. refrigerator according to claim 8, it is characterised in that

The rear end for tilting face and being formed at the block portion.

12. refrigerator according to claim 9, it is characterised in that

The rear end for tilting face and being formed at the block portion.

13. refrigerator according to claim 7, it is characterised in that

Side wall in the container, the block portion and it is described tilt between face formed with spatial portion, taken out by the container After going out to stop position and then lifting the container to make the convex portion cross the hook portion, the convex portion is in the space Portion passes through upward.

14. refrigerator according to claim 8, it is characterised in that

Side wall in the container, the block portion and it is described tilt between face formed with spatial portion, taken out by the container After going out to stop position and then lifting the container to make the convex portion cross the hook portion, the convex portion is in the space Portion passes through upward.

15. refrigerator according to claim 9, it is characterised in that

Side wall in the container, the block portion and it is described tilt between face formed with spatial portion, taken out by the container After going out to stop position and then lifting the container to make the convex portion cross the hook portion, the convex portion is in the space Portion passes through upward.