CN105716357A - Refrigerator - Google Patents

Refrigerator Download PDF

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Publication number
CN105716357A
CN105716357A CN201510951866.5A CN201510951866A CN105716357A CN 105716357 A CN105716357 A CN 105716357A CN 201510951866 A CN201510951866 A CN 201510951866A CN 105716357 A CN105716357 A CN 105716357A
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CN
China
Prior art keywords
column
rotating part
refrigerator according
guiding
elastic component
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201510951866.5A
Other languages
Chinese (zh)
Other versions
CN105716357B (en
Inventor
郑载勋
刘善一
权赫九
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
LG Electronics Inc
Original Assignee
LG Electronics Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020140182071A external-priority patent/KR101649529B1/en
Priority claimed from KR1020140182070A external-priority patent/KR102196314B1/en
Application filed by LG Electronics Inc filed Critical LG Electronics Inc
Publication of CN105716357A publication Critical patent/CN105716357A/en
Application granted granted Critical
Publication of CN105716357B publication Critical patent/CN105716357B/en
Active legal-status Critical Current
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D23/00General constructional features
    • F25D23/02Doors; Covers
    • F25D23/028Details
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D23/00General constructional features
    • F25D23/02Doors; Covers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D2323/00General constructional features not provided for in other groups of this subclass
    • F25D2323/02Details of doors or covers not otherwise covered
    • F25D2323/021French doors

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Refrigerator Housings (AREA)
  • Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)

Abstract

A refrigerator includes a cabinet shaping the appearance; a storage compartment located within the cabinet; a first door and a second door configured to open or close the door of the storage compartment and pivotably disposed at left and right sides of the cabinet; a pillar disposed to the first door in a pivotable manner of a side of the pillar and configured to block leakage of cold air between the first door and the second door; a pillar boss disposed in a protruding on the upper portion of the pillar; a guide recess configured to guide the pillar boss; and a rotator provided with the guide recess at a side thereof, the rotator being configured to rotate about a rotation axis inside.

Description

Refrigerator
Technical field
The present invention relates to refrigerator, more specifically, relate to the column being arranged at refrigerator.
Background technology
General refrigerator refers to the device utilizing cold air with low temperature keeping foodstuff etc..
In order to generate cold air, refrigerator utilizes the freeze cycle being made up of the process evaporated, compress, condense, expand.
Refrigerator is provided with storeroom therein, and storeroom comprises the steps that the refrigerating chamber maintaining subzero temperature to keeping reserve;Cold room with the temperature keeping reserve higher than the temperature of described refrigerating chamber.
Recently, along with the consumer requiring ease of use increases, it is suitable for the double gate type door portion of column, is used in widely in refrigerator.
Described column refers to, is arranged on offside door portion to prevent cold air from flowing out between two-door door portion, and seals the device between left side and the door portion on right side.
But, existing refrigerator, when opening offside door portion, column launches, therefore when taking out the vegetable box of inside of storeroom, the problem producing to interfere with column, and when opening offside door portion, produce the problem that column collides with offside door portion.
Summary of the invention
It is an object of the invention to, when opening offside door portion, column folds, thus preventing situation about interfering when taking out vegetable box.
It is further an object that, it is prevented that the situation that column and door portion basket interfere when beating door opening portion.
It is further an object that, improve the usability of user when beating door opening portion and the use volume of refrigerator.
In order to solve the problems referred to above, the present invention provides a kind of refrigerator, including: casing, it forms outward appearance, storeroom, it is arranged on the inside of described casing, first portion and second portion, door portion as storeroom described in opening and closing, rotatably it is arranged on left side and the right side of described casing, column, described column by the side of described column so that described first portion can be arranged in the way of rotating, for preventing cold air from revealing between described first portion and second portion, column is protruding, its projecting top at described column, guiding groove, it is used for guiding described column protruding, rotating part, it has described guiding groove;Described rotating part can rotate centered by rotating shaft.
Described guiding groove includes: insertion section, and it is opening in the way of can making the insertion of described column projection;First inclined plane, it is near described door portion, and rearward projecting;Second inclined plane, it is away from described door portion, and setting of forwards caving in.
Additionally, described insertion section is wider than described column projection.
By the closing forces in described second portion, described rotating part can be made to rotate to first direction.
At this, including protuberance, this protuberance is projecting from described rotating part, and described protuberance can come in contact with second portion.
When described second portion is closed, described second inclined plane guides described column protruding, so that described column launches.
It addition, include elastic component, this elastic component is arranged on the opposite side of described rotating part, and provides the elastic force that described rotating part can be made to rotate to second direction.
At this, including: the first guiding piece, its through described elastic component, and guide elongation and the compression of described elastic component;Second guiding piece, it has a through hole that described first guiding piece can be made through, and is arranged on the top of described storeroom to guide described elastic component, and the other end of described first guiding piece and described rotating part are rotatably attached.
When described second portion is opened, described first inclined plane guides described column protruding, so that described column folds.
The elastic force of described elastic component is less than the closing forces in described second portion.
Being internally provided with column spring at described column, this column spring is able to maintain that described column launches or folding state;The elastic force of described elastic component is more than the inertia force of described column spring.
When described first portion is opened, described column is protruding through described first inclined plane, and departs from from described insertion section, so that described column folds.
When described first portion is closed, described column protrudes out into described insertion section, and enters along described second inclined plane, so that described column launches.
Also including housing, be internally provided with described second guiding piece at this housing, this housing is arranged on the top of described storeroom.
At this, described rotating part is can be arranged on the bottom of described housing in the way of rotating, the bottom surfaces of described rotating part and the described first through described housing of guiding piece connects.
The rotating shaft of the described protuberance being connected with described rotating part is configured to mobile;Including the 3rd guiding piece, it is arranged on the bottom of described housing, is used for guiding described protuberance to move linearly in front-rear direction.
Described protuberance includes the contact site that side is smooth, so as to carries out face with described second portion and contacts.
It addition, the described elastic component of the present invention is provided with two side by side, described contact site is set between the position being provided with two described elastic components.
In order to solve the problems referred to above, the present invention provides a kind of refrigerator, including: casing, it has storeroom, first portion and second portion, it is storeroom described in opening and closing, respectively so that left side and the right side of described casing can be arranged in the way of rotating, column, for sealing between described first portion and described second portion, this column is can be arranged on described first portion in the way of rotating, rotating part, it is can be arranged on the top of described storeroom in the way of rotating, when described second portion is closed, described rotating part rotates to first direction, elastic component, when described second portion is opened, this elastic component provides the elastic force for making described rotating part rotate to second direction;When described rotating part rotates to described first direction, described column launches, and when described rotating part rotates to described second direction, described column folds.
The refrigerator of the present invention, also includes: column is protruding, and it is arranged on the top of described column;Guiding groove, it is arranged on described rotating part, is used for guiding described column protruding.
At this, when described column projection is positioned at the inside of described guiding groove, described column is in the state of expansion, and when described column projection is positioned at the outside of described guiding groove, described column is in folding state.
Now, described guiding groove includes: insertion section, and it is opening in the way of can making the discrepancy of described column projection;First inclined plane, it is rearward projecting, for guiding the described column departed from from described insertion section protruding;Second inclined plane, its setting of forwards caving in, for guiding the described column inserted to described insertion section protruding.
When described second portion is opened, described guiding groove rotates to second direction, and described first inclination provides the power to first direction towards described column projection.
When described column projection departs from from described insertion section, described column is through the first angle and folds.
On the other hand, when described second portion is closed, described guiding groove rotates to first direction, and described second inclination provides the power to second direction towards described column projection.
Described column projection is guided by described second inclined plane, and described column is through the first angle and launches.
It addition, under described second pent state in portion, described rotating part is in and rotates and fixing state to first direction to greatest extent.
Additionally, when described first portion is opened, described column projection departs from along described first inclined plane from described insertion section.
When described column projection departs from described insertion section, described column is through the first angle and folds.
Additionally, when described first portion is closed, described column projection inserts described insertion section, and described second inclination provides the power to second direction towards described column projection.
Described column projection is guided by described second inclined plane, and described column is through the first angle and launches.
According to the present invention, even if after door portion is opened, when taking out the vegetable box of inside of storeroom, interfering without with column, user can take out vegetable box, thus having the effect of the convenience improving user.
Additionally, according to the present invention, when beating door opening portion, door portion basket does not interfere with column, therefore there is the effect that the actually used volume change that can make portion's basket is big.
Additionally, according to the present invention, when beating door opening portion, make column fold, thus having the effect using volume of the usability improving user and refrigerator.
Accompanying drawing explanation
Fig. 1 is the axonometric chart of the refrigerator of one embodiment of the invention.
Fig. 2 is the axonometric chart of the column of one embodiment of the invention, protuberance, rotating part, housing etc..
Fig. 3 is the three-dimensional exploded view observing the protuberance of one embodiment of the invention, rotating part, housing etc. from top.
Fig. 4 is the three-dimensional exploded view observing the protuberance of one embodiment of the invention, rotating part, housing etc. from bottom.
Fig. 5 observes first portion of one embodiment of the invention and the axonometric chart of state that second portion closes from top.
Fig. 6 is the axonometric chart observing the state that first portion of one embodiment of the invention is being opened from top.
Fig. 7 is the axonometric chart observing the state that first portion of one embodiment of the invention has been opened completely from top.
Fig. 8 observes first portion of one embodiment of the invention and the axonometric chart of state that second portion closes from top.
Fig. 9 is the axonometric chart observing the state that second portion of one embodiment of the invention is being opened from top.
Figure 10 is the axonometric chart observing the state that second portion of one embodiment of the invention has been opened from top.
Figure 11 is the axonometric chart observing the state that second portion of one embodiment of the invention has been opened from top.In this case, housing is eliminated for the ease of understanding.
Figure 12 is that second portion observing one embodiment of the invention from top is just at the axonometric chart of pent state.In this case, housing is eliminated for the ease of understanding.
Figure 13 is the axonometric chart observing the state that second portion of one embodiment of the invention has been closed from top.In this case, housing is eliminated for the ease of understanding.
Figure 14 observes first portion of other embodiments of the present invention and the axonometric chart of second pent state in portion from top.
Figure 15 is the axonometric chart of the state that first portion from other embodiments of the top observation present invention is being opened.
Figure 16 is the axonometric chart of the state that first portion from other embodiments of the top observation present invention has been opened completely.
The axonometric chart of the state that Figure 17 is first portion of other embodiments observing the present invention from top and second portion closes.
Figure 18 is the axonometric chart of the state that second portion from other embodiments of the top observation present invention is being opened.
Figure 19 is the axonometric chart of the state that second portion from other embodiments of the top observation present invention has been opened.
Figure 20 is the axonometric chart of the state that second portion from other embodiments of the top observation present invention has been opened.In this case, housing is eliminated for the ease of understanding.
Figure 21 is that second portion of other embodiments observing the present invention from top is just at the axonometric chart of pent state.In this case, housing is eliminated for the ease of understanding.
Figure 22 is the axonometric chart of the state that second portion from other embodiments of the top observation present invention has been closed.In this case, housing is eliminated for the ease of understanding.
Description of reference numerals
1: casing 2: storeroom
31: the first portions of 33: the second, portion
4: column 41: column is protruding
51: rotating part 53: protuberance
571: elastic component
Detailed description of the invention
Hereinafter, with reference to accompanying drawing, describe the preferred embodiments of the present invention in detail.
With reference to Fig. 1, the column of the refrigerator being arranged at one embodiment of the invention is illustrated.
The refrigerator of the present invention includes: casing 1, and it forms the outward appearance of refrigerator;Storeroom 2, it is arranged on the inside of described casing 1;First portion 31 and second portion 33, its left side being rotatably arranged on described casing 1 and right side, with storeroom described in opening and closing 2;Column 4, it is arranged on described first portion 31;Column projection 41, it is arranged on the top of described column 4;Guiding groove 510, it guides described column projection 41;Rotating part 51, it is provided with described guiding groove 510.
Therefore, refrigerator provided by the invention, when described door portion 31,33 all closes, described column 4 launches, it is thus possible to seal between described door portion 31,33, and a certain door portion in described door portion 31,33 opens, described column 4 folds.
Hereinafter, about the structure constituting described refrigerator, described storeroom 2 refers to, it is possible to store the space of reserve in inside, and described storeroom can include with less than the refrigerating chamber of the temperature keeping reserve of zero degree, the cold room taking care of reserve with temperature above zero.
Described storeroom 2 comprises the steps that shelf 21, it is possible to place reserve;Vegetable box 23, it is possible to place reserve therein, and this vegetable box 23 can be pulled out to the outside of described storeroom 2.
Described door portion 31,33 prevents the cold air to the supply of described storeroom 2 from flowing out to outside, and described door portion 31,33 includes: first portion 31, and it is combined with the left side hinge of described casing 1, and can rotate;Second portion 33, it is combined with the right side hinge of described casing 1, and can rotate.
The back side in described first portion 31 and described second portion 33 can be provided with portion's basket 311, thus place reserve in the inside of this basket 311.
Additionally, the back side periphery in described first portion 31 and described second portion 33 arranges sealing gasket 331, thus preventing cold air from discharging between described door portion 31,33 and described casing 1.
Although column 4 is arranged on described first portion 31 in one embodiment of this invention, but described column 4 can be arranged on second portion 33 in other embodiments, thus other structures is also reversed and carries out action.
With reference to Fig. 2, described column 4 is set to the bar-shaped of length.That is, be formed as long in the vertical and wide bar-shaped in the horizontal.Can be provided with column spring (not shown) in the inside of described column 4, the elastic force of described column spring (not shown) becomes, in order to make the minimum power that described column 4 is folding or launches and supplies to described column 4.
Or, described column 4 has the first angle that the state of described column 4 can be made in the angular range that deployed condition and folded state are constituted to change.Therefore, the External Force Acting through described first angle when described column 4 launches, described column 4 is folded, and on the contrary, the External Force Acting through described first angular range when described column 4 is folding, described column 4 is unfolded.
Described column projection 41 can be set to the column shape of circle, but can be preferably provided with the column shape of ovalisation to make radius of curvature big.
Described column projection 41 is prominent from the top of described column 4, is internally provided with column projection spring (not shown) for support post projection 41 at described column 4, so that described column projection 41 can move up and down.
Therefore, described column projection 41 can be guided by described guiding groove 510, prevents described column protruding 41 damaged.
With reference to Fig. 3 and Fig. 4, there is the space of regulation in the inside of described guiding groove 510, thus guiding described column projection 41.
Specifically, described guiding groove 510 includes: insertion section 513, and it is opening in the way of making described column projection 41 be inserted into;First inclined plane 511, it is connected with described insertion section 513 and near described door portion 31,33, and rearward highlights;Second inclined plane 512, it is connected with described insertion section 513 and away from described door portion 31,33, and forwards caves in.
Or, described guiding groove 510 comprises the steps that insertion section 513, and it is opening in the way of making described column projection 41 to come in and go out;First inclined plane 511, it guides described column projection 41 when described column projection 41 departs from from described insertion section 513;Second inclined plane 512, it guides described column projection 41 when described column protruding 41 inserts described insertion section 513.
In this case, having the regulation space for guiding described column projection 41 between described first inclined plane 511 and described second inclined plane 512, described first inclined plane 511 is set to highlight, and described second inclined plane 512 is set to depression.
Wherein, described insertion section 513 is set to wider than described column projection 41, thus preventing following situation, namely, assembling tolerance because of the assembling tolerance in described door portion 31,33, described column 4, when described column protruding 41 inserts described insertion section 513, described column protruding 41 and the periphery of described insertion section 513 collide and impaired.
Described rotating part 51 has guiding groove 510 and the bottom of the housing 55,56 (being described later) on the top being arranged at described storeroom 2, it is possible to rotate centered by rotating shaft C.It should be noted that described housing 55,56 is not the necessary structure of the present invention, described rotating part 51 can also be rotationally arranged at the top of described storeroom 2.Additionally, described guiding groove 510 can form as one with the inner shell of described storeroom 2.
Additionally, described rotating part 51 may be configured as the tabular of sector.Wherein, the part of the fan-shaped straight line constituting described rotating part 51 is set to, even if described rotating part 51 rotates, does not also forwards eject from the upper side of described storeroom 2, thus not interfering with door portion 31,33.
It is provided with the fixed part (not shown) forming difference in height in the way of depression on the top of described storeroom 2, described rotating part 51 and described housing 55,56 can be set described fixed part (not shown).In this case, described rotating part 51 and described housing 55,56 can be generally aligned in the same plane with the upper side of described storeroom 2.
Wherein, the direction of rotation illustrated in the description is defined, as follows: when observing described rotating part 51 from the top down, counter clockwise direction or the sharp right-handed hand of spiral are defined as first direction R, clockwise direction or the sharp left-handed hand of spiral are defined as second direction L.Described first direction R and described second direction L is applicable not only to the rotation of described rotating part 51, is also applied for the rotation of described column 4.
It addition, the refrigerator of one embodiment of the invention may also include the elastic component 571 that the protuberance 53 being connected with described rotating part 51 is connected with described rotating part 51.
Described protuberance 53 is arranged on described rotating part 51 in the way of lower portion is prominent, has described rotating shaft C between described guiding groove 510 and described protuberance 53.That is, in one embodiment of this invention, when observing described rotating part 51 from the top down, described guiding groove 510 is arranged on the left side of described rotating part 51, and described protuberance 53 is arranged on the right side of described rotating part 51.
Additionally, described protuberance 53 is preferably arranged to greatest extent away from described rotating shaft C, in order in order to make described rotating part 51 rotate and during feed force, it is possible to act on bigger revolving force.
Therefore, when described second portion 33 closes, described protuberance 53 contacts with described second portion 33, by the closing forces in described second portion 33, rearward pushes away described protuberance 53, so that described rotating part 51 rotates to first direction R.
In this case, described protuberance 53 can contact with the press section (not shown) at the projecting back side in described second portion 33, or can also contact with the door portion basket 311 at the back side being arranged on described second portion 33.
The protuberance that described protuberance 53 can have can be arranged at described rotating part 51 in the way of rotating sandwiches hole 515, and in other embodiments, described protuberance 53 can also form as one with the bottom of described rotating part 51.
It addition, described elastic component 571 provides elastic force so that described rotating part 51 can rotate to described second direction L.
Described elastic component 571 can be spring.
Described rotating shaft C can be had between described guiding groove 510 and described elastic component 571.That is, the right side of described rotating part 51 is provided with described elastic component 571.
In this case, when described rotating part 51 rotates to first direction R, described elastic component 571 is compressed, and when described rotating part 51 rotates to second direction L, described elastic component 571 recovers to original state.That is, utilize the elasticity of compression power of elastic component to make described rotating part 51 rotate to second direction L.
It addition, for the action improving described elastic component 571, the present invention can include being arranged on the housing 55 on the top of described storeroom 2,56, be arranged on the guiding piece 573,567 of the elastic component 571 of the inside of described housing 55,56.
Described housing 55,56 is made up of upper body 56 and lower case 55, in the bottom surfaces of described lower case 55, is provided with the described rotating part 51 rotated centered by described rotating shaft C.
Described guiding piece 573,567 is arranged on the inside of described housing 55,56, including the first guiding piece 573 for making described elastic component 571 sandwich, the second guiding piece 567 being arranged on lower case 55 in order to guide described first guiding piece 573.
Described second guiding piece 567 has through hole 567a, and one end of described first guiding piece 573 sandwiches this through hole 567a and directed.
By the protuberance 573a bigger than the diameter of the first guiding piece 573 being arranged on the other end of described first guiding piece 573, it is prevented that described elastic component 571 comes off.
Therefore, described elastic component 571 sandwiches described first guiding piece 573, and described first guiding piece 573 sandwiches described through hole 576a and directed in the longitudinal direction, and described elastic component 571 is compressed between described protuberance 573a and through hole 567a.
It addition, in order to improve elastic force, can arrange two described elastic components 571, in order to guide each described elastic component 571, described first guiding piece 573, protuberance 573a, the second guiding piece 567, through hole 567a are also equipped with two.
In this case, two protuberance 573a are integrally constituted, so that two described elastic components similarly move.
It addition, when described elastic component 571 and guiding piece 573,567 are arranged on the inside of housing 55,56, including: for connecting the linkage component 58 of described protuberance 573a and described rotating part 51;To make described linkage component 58 can be arranged on the 3rd guiding piece 555 of described lower case 55 in the way of moving.
Therefore, the elastic force of described elastic component 571 is transferred to described rotating part 51 such that it is able to make rotating part 51 rotate.
The bottom surfaces of the described 3rd through described lower case 55 of guiding piece 555, and it is configured to the slot in the longitudinal direction with specific length, so as to make described linkage component 58 rear forward move linearly.
And, in one embodiment of this invention, described protuberance 53 is directly connected to identical axle with described linkage component 58, so that directions different to each other makes the power that described rotating part 51 rotates, is positioned on identical axle.
It is therefore prevented that there is following situation, i.e. when described rotating part 51 rotates, because of in the rightabout power acted on from the position of described distance different for rotating shaft C, and making described rotating part 51 occur, click click rings etc. rotates the problem that has some setbacks.
In this case, in order to enable the rotating shaft of the described protuberance 53 being connected with described rotating part 51 to move, described protuberance sandwiches hole 515 should be through in the way of having regulation area.This is because, owing to described linkage component 58 carries out rectilinear motion by described 3rd guiding piece 555 rear forward, described protuberance 53 is connected with described rotating part 51 and is rotated, and therefore connects phase conflict at described protuberance 53 and linkage component 58 with same axle.
Therefore, described protuberance sandwiches hole 515 and is configured to make the rotating shaft of described protuberance 53 move, and therefore described protuberance 53 also is able to carry out in front-rear direction rectilinear motion.
In addition, in order to prevent described rotating part 51 from dropping from described housing 55,56, and guide the rotation of rotating part 51, the 4th guiding piece 553 of through lower case 55 it is provided with in described lower case 55, described rotating part 51 is connected by described 4th guiding piece 553, may also include the support portion 531` guided by described 4th guiding piece 553.
In the refrigerator of other embodiments of the present invention, described protuberance 53 includes carrying out the smooth contact site 531 that face contacts with described second portion 33 or described press section (not shown).
That is, described protuberance 53 is arranged to semicircular column, and the smooth face diametrically formed at semicircle is called contact site 531.
Can being provided with the first Magnet in the inside of described contact site 531, can be provided with the second Magnet in the inside of described press section (not shown), described first Magnet and the second Magnet have pole different from each other, therefore produce gravitation.
Therefore, when opening described second portion 33, due to described press section, described protuberance 53 is pulled to the direction that described second portion 33 opens, and thus described rotating part 51 also rotates to second direction L.
By described guiding groove 510 so that when described column protruding 41 inserts described guiding groove 510, described column 4 launches, when described column projection 41 is removed, described column 4 folds.
Hereinafter, with reference to Fig. 5, Fig. 6 and Fig. 7, for when described first portion 31 and described second portion 33 open or close, described column 4 launches or folding action, illustrates.
The structure folding firstly, for column 4 described when opening described first portion 31 and the structure that described column 4 launches when closing described first portion 31, illustrate.
With reference to Fig. 5, when described second portion 33 closes, making described protuberance 53 be in the state rearward moved to greatest extent by described second portion 33, described rotating part 51 is to be fixed to the first direction R state rotated to greatest extent.Additionally, as it has been described above, described guiding groove 510 is arranged on the left side of described rotating part 51.
Wherein, when described first portion 31 is opened, described column projection 41 is along described first inclined plane 511 (with reference to Fig. 6) and departs from from described guiding groove 510 via described insertion section 513.(with reference to Fig. 7)
Described first inclined plane 511 is set to rearward highlight, therefore described column projection 41 rotates to first direction R, there is provided the power bigger than the elastic force of the column spring (not shown) of the inside being arranged on described column 4, so that described column 4 folds.That is, by the folding revolving force of protruding 41 effects of described first inclined plane 511 column, it should bigger than the elastic force of above-mentioned column spring.
Or, when described column protruding 41 departs from insertion section 513, described column 4 rotates and through described first angle, thus described column 4 is folded.
Therefore, described column 4 is folded as shown in Figure 6, and when opening first portion 31, described column 4 does not collide with the door portion basket 311 in described second portion 33 or second portion 33, also appear to not prominent from the side in first portion 31, therefore also beautiful in appearance.
Although illustrating not in the drawings, but on the contrary, when described first portion 31 is closed, described column protruding 41 enters described insertion section 513, and come in contact with described second inclined plane 512, and enter the inside of described guiding groove 510 along described second inclined plane 512.
Described second inclined plane 512 is set to forwards cave in, therefore described column projection 41 rotates to second direction L, and provide the power bigger than the elastic force of the column spring (not shown) of the inside being arranged on described column 4, so that described column 4 launches.
That is, while described column projection 41 rotates along described second inclined plane 512, it is subject to the expansion revolving force that described column 4 can be made to launch, and described expansion revolving force should be bigger than the elastic force of above-mentioned column spring.
Or, in the process that described column projection 41 is guided by described second inclined plane 512, described column 4 also rotates together with, and through described first angle, therefore described column 4 launches.
Therefore, described column 4 is unfolded, thus first portion 31 of sealing and second portion 33 prevent cold air from discharging between first portion 31 and second portion 33.
Hereinafter, with reference to Fig. 8, Fig. 9 and Figure 10, for the structure that column 4 described when opening described second portion 33 is folding, illustrate.
The state that Fig. 8 is described first portion 31 and described second portion 33 all closes, described protuberance 53 is in and is pushed away rearward state by described second portion 33, and described rotating part 51 is also to greatest extent to the first direction R state rotated.
This is because, compared with the elastic force of described elastic component 571, the closing forces in described second portion 33 is bigger, the closing forces in described second portion 33, it may include the weight in door portion, be stored at a weight of the reserve of portion's basket, the magnetic force etc. produced under the pent state in door portion because of magnetic field.
In this case, described column 4 prevents cold air from flowing out between described first portion 31 and described second portion 33 with the state launched.
As it is shown in figure 9, when starting to open at described second portion 33, the closing forces in described second portion 33 acting on described rotating part 51 is removed, therefore the elastic force of described elastic component 571 makes described rotating part 51 rotate to described second direction L.
Thus, the described guiding groove 510 also described in the same direction second direction L being arranged on described rotating part 51 rotates.
It is arranged on the described column projection 41 within described guiding groove 510, it is subject to the power towards the direction (first direction R) identical with the direction (first direction R) that described column 4 rotates by described first inclined plane 511, the elastic force that this force rate is arranged on the described column spring (not shown) of the inside of described column 4 is big, and therefore described column 4 rotates to side, described first portion 31.
That is, the elastic force of described elastic component 571 should be bigger than the elastic force of the column spring of column 4, can fold described column 4.Therefore, as shown in Figure 10, when described second portion 33 is opened completely, described column 4 is folded.
Or, when described column projection 41 departs from from described insertion section 513, described column 4 is through the first angle folded.
Owing to described column 4 is folded, therefore do not block the input port of the storeroom 2 of described second portion 33 opening and closing, therefore, it is possible to make the volume being arranged on the vegetable box 23 within storeroom 2 bigger, and do not collide with column 4 when user picks and places reserve.
Hereinafter, with reference to Figure 11, Figure 12 and Figure 13, for the structure that the described column 4 when closing described second portion 33 launches, illustrate.
Figure 11 is the state that described second portion 33 is opened, and described rotating part 53 is in the state (with reference to Figure 10) rotated to greatest extent to second direction L because of described elastic component 571, and described column 4 is in folding state.Additionally, described protuberance 53 is in the state to described second portion 33 side shifting.
As shown in figure 12, when closing described second portion 33, described second portion 33 comes in contact with described protuberance 53, and the closing forces in described second portion 33 makes described rotating part 51 rotate to described first direction R by described protuberance 53.Therefore, a described guiding groove 510 also first direction R rotation in the same direction of described rotating part 51 it is arranged on.
In this case, described column protruding 41 passes through described insertion section 513 and inserts the inside of described guiding groove 510, described second inclined plane 512 is to described column protruding 41 effects power towards direction (second direction L) equidirectional (second direction L) rotated with described column 4, and contacts guide posts projection 41 with described column protruding 41.
Therefore, as shown in figure 13, when described second portion 33 is closed completely, described column 4 is unfolded, thus preventing cold air from discharging between first portion 31 and second portion 33.
Or, described column projection 41 is guided by described second inclined plane 512, and described column 4 is being unfolded through the first angle.
As mentioned above, the refrigerator of the present invention, when opening or closing described second portion 33, described rotating part 51 rotates, described guiding groove 510 also rotates, described column projection 41 is guided by the guiding groove 510 rotated, the therefore refrigerator of the present invention, improve action compared with existing column and column guiding piece.
This is because, in order to make described column 4 rotate, described guiding groove 510 promotes described column projection 41 to the direction identical with the direction of rotation of described column 4.In other words, this is because, described guiding groove 510, to the tangential direction of radius of turn rotating column 4 axial, described not being described column 4, promotes described column projection 41, therefore makes the revolving force (moment of torsion) acting on described column 4 become big.
It addition, figure, Figure 14 to Figure 22 that Figure 14 to Figure 22 is the refrigerator of other embodiments illustrating the present invention are corresponding in turn in Fig. 5 to Figure 13.Other guide except distinctive points described below, repeats with in Fig. 5 to Figure 13 content recorded, therefore detailed.
As shown in Figure 14 to Figure 22, column 4 rotatably, is arranged on first portion 31 by joint portion 43, and is fixed on the side of the door portion basket 311 being arranged at first portion 31.
The present invention can implement after changing in a variety of forms, and its interest field is not limited to above-described embodiment.Therefore, if the embodiment changed comprises the structural element in claims of the present invention, then should be considered to fall in the scope of the present invention.

Claims (20)

1. a refrigerator, it is characterised in that
Including:
Casing, it forms outward appearance,
Storeroom, it is arranged on the inside of described casing,
First portion and second portion, as the door portion of storeroom described in opening and closing, be rotatably arranged on left side and the right side of described casing,
Column, the side of described column is arranged on described first portion, and described column can rotate, and is used for preventing cold air from revealing between described first portion and second portion,
Column is protruding, its projecting top at described column,
Guiding groove, it is used for guiding described column protruding,
Rotating part, it has described guiding groove;
Described rotating part can rotate centered by rotating shaft.
2. refrigerator according to claim 1, it is characterised in that
Described guiding groove includes:
Insertion section, it is opening in the way of can making the insertion of described column projection;
First inclined plane, it is connected with described insertion section, and rearward projecting;
Second inclined plane, it is connected with described insertion section, and setting of forwards caving in.
3. refrigerator according to claim 2, it is characterised in that
By the closing forces in described second portion, described rotating part can be made to rotate to first direction.
4. refrigerator according to claim 3, it is characterised in that
Including the first protuberance, this first protuberance is projecting from described rotating part,
Described first protuberance and pent second portion come in contact, so that described rotating part rotates to first direction.
5. refrigerator according to claim 4, it is characterised in that
When described second portion is closed, described second inclined plane guides described column protruding, so that described column launches.
6. refrigerator according to claim 4, it is characterised in that
Including elastic component, this elastic component is arranged on described rotating part, and provides the elastic force that described rotating part can be made to rotate to second direction.
7. refrigerator according to claim 6, it is characterised in that
Including:
First guiding piece, makes described elastic component sandwich, thus guiding described elastic component;
Second guiding piece, it is used for guiding described first guiding piece;
Second protuberance, it is arranged on one end of described first guiding piece in the way of bigger than the diameter of the first guiding piece;
Through hole, it is arranged on described second guiding piece, and the other end of described first guiding piece sandwiches described through hole, to prevent described elastic component from coming off,
Described second protuberance is connected with described rotating part.
8. refrigerator according to claim 6, it is characterised in that
When described second portion is opened, described first inclined plane guides described column protruding, so that described column folds.
9. refrigerator according to claim 6, it is characterised in that
The elastic force of described elastic component is less than the closing forces in described second portion.
10. refrigerator according to claim 9, it is characterised in that
Being internally provided with column spring at described column, this column spring is able to maintain that described column launches or folding state,
The elastic force of described elastic component is more than the inertia force of described column spring.
11. refrigerator according to claim 10, it is characterised in that
When described first portion is opened, described column is protruding through described first inclined plane, and departs from from described insertion section, so that described column folds.
12. refrigerator according to claim 10, it is characterised in that
When described first portion is closed, described column protrudes out into described insertion section, and enters along described second inclined plane, so that described column launches.
13. refrigerator according to claim 7, it is characterised in that
Described elastic component and described first guiding piece can be provided with two, are provided with described second protuberance between two described elastic components.
14. refrigerator according to claim 6, it is characterised in that
The position of described elastic component is set at described rotating part, is the position separating predetermined distance from described rotating shaft.
15. a refrigerator, it is characterised in that
Including:
Casing, it has storeroom,
First portion and second portion, it is storeroom described in opening and closing, respectively so that left side and the right side of described casing can be arranged in the way of rotating,
Column, is used for sealing between described first portion and described second portion, this column so that described first portion can be arranged in the way of rotating,
Rotating part, it is can be arranged on the top of described storeroom in the way of rotating, when described second portion is closed, described rotating part rotates to first direction,
Elastic component, when described second portion is opened, this elastic component provides the elastic force for making described rotating part rotate to second direction;
When described rotating part rotates to described first direction, described column launches, and when described rotating part rotates to described second direction, described column folds.
16. refrigerator according to claim 15, it is characterised in that
Also include:
Column is protruding, and it is arranged on the top of described column;
Guiding groove, it is arranged on described rotating part, is used for guiding described column protruding.
17. refrigerator according to claim 16, it is characterised in that
Described guiding groove includes:
Insertion section, it is opening in the way of can making the discrepancy of described column projection;
First inclined plane, it is rearward projecting, for guiding the described column departed from from described insertion section protruding;
Second inclined plane, its setting of forwards caving in, for guiding the described column inserted to described insertion section protruding.
18. refrigerator according to claim 17, it is characterised in that
When described second portion is opened, described guiding groove rotates to second direction, and described first inclination provides the power to first direction towards described column projection.
19. refrigerator according to claim 17, it is characterised in that
When described second portion is closed, described guiding groove rotates to first direction, and described second inclination provides the power to second direction towards described column projection.
20. refrigerator according to claim 17, it is characterised in that
Under described second pent state in portion, described rotating part is in and rotates and fixing state to first direction to greatest extent.
CN201510951866.5A 2014-12-17 2015-12-17 Refrigerator Active CN105716357B (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
KR10-2014-0182070 2014-12-17
KR10-2014-0182071 2014-12-17
KR1020140182071A KR101649529B1 (en) 2014-12-17 2014-12-17 Refrigerator
KR1020140182070A KR102196314B1 (en) 2014-12-17 2014-12-17 Refrigerator

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CN106225401A (en) * 2016-08-30 2016-12-14 青岛海尔股份有限公司 Side by side combination refrigerator and vertical beam guider thereof
CN106288621A (en) * 2016-08-30 2017-01-04 青岛海尔股份有限公司 Side by side combination refrigerator and vertical beam guider thereof
CN106338176A (en) * 2016-08-30 2017-01-18 青岛海尔股份有限公司 Side-by-side combination refrigerator and vertical beam guide device thereof
CN106338175A (en) * 2016-08-30 2017-01-18 青岛海尔股份有限公司 Side-by-side refrigerator and vertical beam guide device thereof
CN110799719A (en) * 2017-06-23 2020-02-14 泰特斯(德卡尼)有限责任公司 Improvement of damping closing mechanism

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CN106225402A (en) * 2016-08-30 2016-12-14 青岛海尔股份有限公司 Side by side combination refrigerator and vertical beam guider thereof
CN106225401A (en) * 2016-08-30 2016-12-14 青岛海尔股份有限公司 Side by side combination refrigerator and vertical beam guider thereof
CN106288621A (en) * 2016-08-30 2017-01-04 青岛海尔股份有限公司 Side by side combination refrigerator and vertical beam guider thereof
CN106338176A (en) * 2016-08-30 2017-01-18 青岛海尔股份有限公司 Side-by-side combination refrigerator and vertical beam guide device thereof
CN106338175A (en) * 2016-08-30 2017-01-18 青岛海尔股份有限公司 Side-by-side refrigerator and vertical beam guide device thereof
CN106288621B (en) * 2016-08-30 2019-05-03 青岛海尔股份有限公司 Side by side combination refrigerator and its vertical beam guiding device
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CN106225402B (en) * 2016-08-30 2019-05-31 青岛海尔股份有限公司 Side by side combination refrigerator and its vertical beam guiding device
CN110799719A (en) * 2017-06-23 2020-02-14 泰特斯(德卡尼)有限责任公司 Improvement of damping closing mechanism

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EP3034973B1 (en) 2017-11-01
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