CN112013614A - Hinge structure of refrigerator door body and refrigerator - Google Patents
Hinge structure of refrigerator door body and refrigerator Download PDFInfo
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- CN112013614A CN112013614A CN201910457704.4A CN201910457704A CN112013614A CN 112013614 A CN112013614 A CN 112013614A CN 201910457704 A CN201910457704 A CN 201910457704A CN 112013614 A CN112013614 A CN 112013614A
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- door body
- bevel gear
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- hinge
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- 230000007246 mechanism Effects 0.000 claims abstract description 39
- 230000005540 biological transmission Effects 0.000 claims abstract description 33
- 230000002093 peripheral effect Effects 0.000 claims description 5
- 238000010276 construction Methods 0.000 claims description 3
- 230000001681 protective effect Effects 0.000 description 9
- 230000008859 change Effects 0.000 description 3
- 230000000903 blocking effect Effects 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/02—Doors; Covers
- F25D23/028—Details
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D11/00—Self-contained movable devices, e.g. domestic refrigerators
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- Combustion & Propulsion (AREA)
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- Mechanical Engineering (AREA)
- Thermal Sciences (AREA)
- General Engineering & Computer Science (AREA)
- Refrigerator Housings (AREA)
Abstract
The invention provides a hinge structure of a refrigerator door body and a refrigerator, wherein the refrigerator comprises an upper door body and a lower door body positioned below the upper door body, and the hinge structure comprises: the supporting piece is connected with the shell of the refrigerator and arranged between the upper door body and the lower door body; the hinge shaft is vertically arranged and comprises an upper shaft body, a middle shaft body and a lower shaft body, the upper shaft body is abutted against the bottom of the upper door body, the middle shaft body is in threaded connection with the supporting piece, and the lower shaft body is positioned below the supporting piece; and the transmission mechanism comprises a first bevel gear and a second bevel gear meshed with the first bevel gear, and the first bevel gear is connected with the lower shaft body and can drive the lower shaft body to rotate. Because the transmission mechanism is composed of the bevel gear, and the bevel gear can provide larger driving force while occupying smaller space, the hinge structure can provide enough large pushing force for the upper door body to adjust the height of the upper door body.
Description
Technical Field
The invention relates to a hinge, in particular to a hinge structure of a refrigerator door body and a refrigerator.
Background
In the production process of the refrigerator, the installation height of the door body is not correct due to assembly errors, and the height of the door body needs to be finely adjusted, namely, the height of the door body is slightly increased or reduced. The device for adjusting the height of the door body is generally arranged below the refrigerator door body, and the height of the door body is lifted or lowered in a jacking mode. For the lower door body of the refrigerator, the adjusting device can be hidden at the bottom end of the refrigerator, and the arrangement space is sufficient. For the upper door body, the space below the upper door body is limited, so that the adjusting device is difficult to arrange, and the size of the adjusting device cannot be large, so that the adjusting device is difficult to generate enough thrust due to insufficient size.
Disclosure of Invention
The invention aims to provide a hinge structure capable of adjusting the height of an upper door body of a refrigerator and the refrigerator.
Particularly, the invention provides a hinge structure of a refrigerator door, the refrigerator comprises an upper door and a lower door positioned below the upper door, the hinge structure comprises:
the supporting piece is connected with the shell of the refrigerator and arranged between the upper door body and the lower door body;
the hinge shaft is vertically arranged and comprises an upper shaft body, a middle shaft body and a lower shaft body, the upper shaft body is abutted against the bottom of the upper door body, the middle shaft body is in threaded connection with the supporting piece, and the lower shaft body is positioned below the supporting piece;
the transmission mechanism comprises a first bevel gear and a second bevel gear meshed with the first bevel gear, and the first bevel gear is connected with the lower shaft body and can drive the lower shaft body to rotate;
wherein the hinge shaft is configured to ascend with respect to the supporter when rotated in a first direction about an axis parallel to a length direction thereof to cause the upper door body to ascend, and to descend with respect to the supporter when rotated in a second direction about an axis parallel to the length direction thereof to cause the upper door body to descend.
Further, the tooth surface of the first bevel gear faces away from the middle shaft body, and the second bevel gear is arranged below the first bevel gear and the rotation axis of the second bevel gear is transversely arranged.
Further, the rotation axis of the second bevel gear is parallel to the plane of the upper door body.
Further, the center of the second bevel gear has a prism hole extending in the direction of the rotation axis of the second bevel gear.
Furthermore, the lower shaft body extends into the lower door body, and the lower shaft body is configured to enable the lower door body to rotate around the lower shaft body;
the transmission mechanism is arranged in the lower door body.
Furthermore, the lower door body comprises a hinge hole arranged at the top of the lower door body, the lower shaft body penetrates through the hinge hole and extends into the lower door body, a bearing is sleeved on a wheel hub of the first conical gear, and the bearing is matched with the hinge hole in a shaft hole mode.
Further, the hinge structure further includes:
the lag sets up in the lower door internally, and drive mechanism sets up in the lag.
Furthermore, the upper shaft body comprises an extension column and a butting part, the butting part is arranged at the lower part of the peripheral wall of the extension column, the extension column upwards extends into the upper door body from the bottom of the lower door body, the butting part butts against the bottom of the lower door body, and the extension column is configured to enable the upper door body to rotate around the central axis of the upper door body.
Further, the abutting portion is disposed at an upper end of the middle shaft body, and when the abutting portion abuts against the support member, the hinge shaft is at a lower limit position with respect to the support member.
The second aspect of the present invention further provides a refrigerator, which includes an upper door body and a lower door body located below the upper door body, and further includes:
the hinge structure of any one of the above.
The hinge shaft in the hinge structure comprises an upper shaft body, a middle shaft body and a lower shaft body. The middle shaft body is in threaded connection with a supporting piece arranged between the upper door body and the lower door body, so that the vertical height of the hinge shaft can be changed through rotation. The last axis body of articulated shaft and the bottom butt of the last door body, so will drive the vertical height change of the last door body when the vertical height of articulated shaft changes. Meanwhile, a transmission mechanism is arranged below the supporting piece, and the transmission mechanism can drive a lower shaft body located in a lower door body of the refrigerator to rotate after acquiring driving force. Because the transmission mechanism is composed of the bevel gear, and the bevel gear can provide larger driving force while occupying smaller space, the hinge structure can provide enough large pushing force for the upper door body to adjust the height of the upper door body.
The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.
Drawings
Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:
fig. 1 is a perspective view illustrating a hinge structure according to an embodiment of the present invention installed in an upper door body and a lower door body;
fig. 2 is a rear view schematically illustrating a hinge structure according to an embodiment of the present invention installed in an upper door body and a lower door body;
FIG. 3 is a schematic view in full section of FIG. 2;
FIG. 4 is an enlarged partial schematic view of FIG. 3;
FIG. 5 is a side view of the hinge structure mounted in the upper door body and the lower door body in accordance with one embodiment of the present invention;
FIG. 6 is a schematic view in full section of FIG. 5;
FIG. 7 is an exploded view of a hinge structure and upper and lower door body portions in accordance with one embodiment of the present invention;
FIG. 8 is a side view of a hinge structure according to another embodiment of the present invention installed in the upper door body and the lower door body;
fig. 9 is a schematic sectional view of a hinge structure according to another embodiment of the present invention installed in an upper door body and a lower door body.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
Fig. 1 to 9 show a preferred embodiment of the present invention. In which fig. 1 to 7 show a hinge construction in one of the embodiments and fig. 8 to 9 show a hinge construction in another embodiment. Note that, for the sake of easy viewing, the upper door 10 and the lower door 20 in each of the drawings are partially illustrated. Specifically, a direction Z in fig. 1 is a vertical direction, a direction Y is a direction from the rear side of the refrigerator to the front side of the refrigerator, and a direction X is a direction from the right side of the refrigerator to the left side of the refrigerator when facing the refrigerator.
The embodiment provides a hinge structure arranged on a door body of a refrigerator, the refrigerator comprises an upper door body 10 and a lower door body 20 positioned below the upper door body 10, and the hinge structure is used for adjusting the height of the upper door body 10.
The hinge structure includes a supporter 100, a hinge shaft 200, and a transmission mechanism. The stay 100 is disposed between the upper door body 10 and the lower door body 20 (the vertical height of the stay 100 is lower than the upper door body 10 and higher than the lower door body 20, and the projection of the stay 100 in the horizontal plane may or may not coincide with the projection of the upper door body 10 or the lower door body 20 in the horizontal plane). The supporter 100 is fixed to a case of the refrigerator. Specifically, all exposed surface walls of the refrigerator without the door body can be referred to as a shell, that is, in the present application, an inner container and a cross beam inside the refrigerator can be referred to as a shell of the refrigerator.
In order to enable the supporting member 100 to bear a large pressure without occupying too much space, in one embodiment, the supporting member 100 may be connected to a cross beam of the refrigerator between the upper door body 10 and the lower door body 20. Specifically, the supporter 100 may have a plate shape and horizontally extend in a direction away from the refrigerator along an outer side surface of the cross beam. The support member 100 may also be integrally formed from the cross member, i.e., the support member 100 may be a laterally extending flange of the cross member.
The hinge shaft 200 is vertically arranged, and particularly, may be arranged perpendicular to a horizontal plane. The hinge shaft 200 includes three sections, and for convenience of description, the upper portion of the hinge shaft 200 is an upper shaft body 210, the middle portion thereof is a middle shaft body 220, and the lower portion thereof is a lower shaft body 230 after being referred to as a working position.
The hinge shaft 200 vertically passes through the supporter 100, and the middle shaft body 220 of the hinge shaft 200 is screw-coupled with the supporter 100, so that the hinge shaft 200 can change a vertical height by being rotated. Specifically, a screw thread may be disposed on the middle shaft body 220 of the hinge shaft 200, and a screw hole may be disposed on the supporter 100. When the hinge shaft 200 is rotated in the first direction M as shown in fig. 3 about an axis parallel to the length direction thereof, it ascends with respect to the supporter 100; when the hinge shaft 200 is rotated in a second direction (a direction opposite to the first direction M) about an axis parallel to a length direction thereof, it descends with respect to the supporter 100.
Since the upper shaft 210 of the hinge shaft 200 abuts against the bottom of the upper door 10, when the hinge shaft 200 rotates in the first direction M and rises, the upper shaft 210 abuts against the bottom of the upper door 10 of the refrigerator and lifts the upper door 10. When the hinge shaft 200 rotates in the second direction, the vertical height of the upper shaft body 210 is lowered, so that the vertical height of the upper door body 10 pressed against the upper shaft body 210 is also lowered. Therefore, the height of the upper door 10 of the refrigerator can be adjusted by driving the hinge shaft 200 to rotate.
In one embodiment, the lower shaft 230 of the hinge shaft 200 may extend downward into the lower door 20 of the refrigerator and allow the lower door 20 to rotate around the lower door, that is, the lower door 20 includes a hinge hole 21 at the top thereof, and the lower shaft 230 of the hinge shaft 200 extends downward through the hinge hole 21 into the lower door 20. The lower shaft 230 serves as a rotation shaft of the lower door 20, and the lower door 20 of the refrigerator rotates around the hinge shaft 200 during the door opening and closing processes of the lower door 20 of the refrigerator. Meanwhile, the hinge structure further comprises a transmission mechanism, and the transmission mechanism can be arranged in the lower door body 20 of the refrigerator. The transmission mechanism can drive the lower shaft 230 in the lower door 20 of the refrigerator to rotate after acquiring the driving force, and an operator can adjust the height of the upper door 10 of the refrigerator by driving the transmission mechanism in the lower door 20 of the refrigerator. The transmission mechanism is arranged in the lower door body 20 of the refrigerator, and the space in the lower door body 20 of the refrigerator is sufficient, so that the transmission mechanism is very convenient to arrange. Meanwhile, the size of the hinge shaft 200 is limited only by the thickness of the lower door body 20, so that the size thereof can be set to be large, and it is possible to transmit sufficient thrust. In addition, the transmission mechanism is arranged in the lower door body 20, so that the lower door body can be well protected, and faults are not easy to occur.
In another embodiment, the lower shaft 230 of the hinge shaft 200 and the transmission mechanism may not be disposed in the lower door body 20, the lower door body 20 has a separate rotation shaft, and a position of the lower door body 20 corresponding to the hinge structure is provided with a gap for accommodating the transmission mechanism. I.e., the hinge structure does not have any connecting structure with the lower door body 20.
When the lower shaft body 230 of the hinge shaft 200 and the transmission mechanism are disposed in the lower door body 20, the transmission mechanism may include a first bevel gear 310 and a second bevel gear 320 engaged with the first bevel gear 310. The first bevel gear 310 is connected to the lower shaft 230 and drives the lower shaft 230 to rotate. Specifically, the second bevel gear 320 includes a hub 311, the hub 311 is located above the gear teeth of the second bevel gear 320 in an operating state, and a bearing is sleeved on the hub 311, and the bearing can be in shaft hole fit with the hinge hole 21 of the lower door body 20, so that the lower door body 20 can freely rotate around the lower shaft body 230.
The second bevel gear 320 is engaged with the first bevel gear 310, so that the first bevel gear 310 can be rotated by driving the second bevel gear 320, thereby rotating the hinge shaft 200. The bevel gear can transmit larger torsion, so that the transmission mechanism can transmit larger torsion while transmitting smaller size by utilizing the bevel gear, and the space occupied by the transmission mechanism is reduced. Of course, in other embodiments, the transmission mechanism may also include a spur gear or a drive chain or other common transmission components.
To further reduce the available space occupied by the transmission, the first bevel gear 310 and the second bevel gear 320 may be arranged as shown in fig. 3. That is, the first bevel gear 310 is vertically arranged with its rotation axis after being connected to the lower shaft body 230, and the tooth surface of the first bevel gear 310 faces away from the middle shaft body 220 (the tooth surface of the first bevel gear 310 is inclined downward after being in the working position). The second bevel gear 320 is disposed below the first bevel gear 310 with its rotational axis arranged laterally. The vertical projection area of the hinged end of the lower door 20 of the refrigerator is not provided with other parts, so that the arrangement of the first bevel gear 310 and the second bevel gear 320 according to the above structure can reduce the possibility of position interference between the transmission mechanism and the internal elements of the lower door 20 of the refrigerator as much as possible.
The transmission mechanism is used for transmitting power, and the source of the power can be the driving motor 600 or manpower. When the power source is manual power, in one embodiment, a prism hole 321 may be provided at the center of the second bevel gear 320, and the prism hole 321 extends along the rotation axis of the second bevel gear 320. The prism hole 321 may be a regular hexagonal prism hole 321, and may be a through hole, a blind hole, or a counter sunk hole. The lower door body 20 is provided with an adjusting hole 22, the adjusting hole 22 faces the prism hole 321, so that the prism hole 321 of the second bevel gear 320 is exposed out of the door body, when the height of the upper door body 10 is adjusted, an operator can use an external tool to penetrate through the adjusting hole 22 and extend into the prism hole 321 of the second bevel gear 320, the external tool is driven to rotate to drive the second bevel gear 320 to rotate, and finally the hinge shaft 200 rotates.
In one embodiment, as shown in fig. 8 to 9, the power source of the transmission mechanism may also be a driving motor 600, and the driving motor 600 is connected to the second bevel gear 320 of the transmission mechanism for driving the second bevel gear 320 to rotate. In particular, since the second bevel gear 320 is positioned in the lower door body 20, when the height of the upper door body 10 does not need to be adjusted, the lower shaft body 230 of the hinge shaft 200 and the first bevel gear 310 do not move and the second bevel gear 320 rotates around the axis of the first bevel gear 310 during the opening and closing actions of the lower door body 20. Since second bevel gear 320 is meshed with first bevel gear 310, second bevel gear 320 will rotate about its own axis while rotating about the axis of first bevel gear 310 (it can be understood that second bevel gear 320 rotates while revolving around first bevel gear 310). On the contrary, if the second bevel gear 320 is connected to the driving motor 600, when the driving motor 600 drives the second bevel gear 320 to rotate, the door body will generate an opening and closing movement, and the premise that the driving motor 600 drives the door body to generate the opening and closing movement is that the lower shaft body 230 and the first bevel gear 310 are stationary.
As shown in fig. 3, when the driving motor 600 drives the second bevel gear 320 to rotate around its axis in the N direction, the second bevel gear 320 rotates around the axis of the first bevel gear 310 in the second direction (opposite to the first direction M), which drives the lower door 20 to rotate around the axis of the first bevel gear 310 in the second direction, and at this time, the lower door 20 moves towards the closing direction. When the driving motor 600 drives the second bevel gear 320 to rotate around the axis thereof in the opposite direction of the N direction, the second bevel gear 320 will rotate around the axis of the first bevel gear 310 in the first direction M, which will drive the lower door body 20 to rotate around the axis of the first bevel gear 310 together in the first direction M, and at this time, the lower door body 20 moves towards the opening direction. That is, after the driving motor 600 is connected to the second bevel gear 320, the driving motor 600 not only can drive the second bevel gear 320 to rotate the first bevel gear 310 (at this time, the position of the lower door 20 needs to be fixed, and the second bevel gear 320 cannot revolve around the first bevel gear 310), but also can drive the second bevel gear 320 to automatically open and close the lower door 20 (at this time, the driving force of the driving motor 600 needs to be not greater than a certain value, and the lower shaft 230 and the first bevel gear 310 need to be stationary). Particularly, an intelligent control module can be arranged in the refrigerator, and the driving motor 600 can automatically open and close the lower door body 20 of the refrigerator according to a door opening and closing signal transmitted by the intelligent control module, so that the intelligent control of the refrigerator is realized.
Because the front panel (the panel that deviates from the refrigerator inner bag) area of the door body is great, the error cost and the processing degree of difficulty of trompil on it are higher (once the trompil error is great during processing, whole front panel all scrapps). And the opening of the front panel may affect the integrity and aesthetic appearance of the refrigerator. In one embodiment, the adjusting hole 22 may be disposed on a side panel body of the lower door body 20, which is vertically arranged and perpendicular to the plane of the lower door body 20, and the rotation axis of the second bevel gear 320 is parallel to the plane of the lower door body 20. Because the side plate body of the lower door body 20 is in a long strip shape and has a small volume, the error cost during processing is low.
In a preferred embodiment, the adjusting hole 22 may also be disposed on the inner side plate of the lower door 20 facing the inner container of the refrigerator, where the rotation axis of the second bevel gear 320 is perpendicular to the door. The structure can ensure that the adjusting hole 22 is not exposed, better protects internal elements in the door body, prevents foreign matters from entering, and simultaneously ensures that the whole refrigerator is more attractive.
In order to prevent foreign matters from entering the lower door body 20 of the refrigerator, a protective plug 500 may be disposed on the adjusting hole 22 of the refrigerator, and the protective plug 500 may be detachably disposed on the adjusting hole 22. The protective plug 500 may be a flexible rubber material and covers the adjustment hole 22 by plugging. The protective plug 500 may be made of other hard materials and covers the adjustment hole 22 by means of screw coupling.
In one embodiment, only the upper end of the upper shaft 210 abuts against the upper door 10, and only the upper shaft is used for adjusting the height of the upper door 10. In another embodiment, the upper shaft 210 can also be used as a rotating shaft of the upper door 10, that is, the upper shaft 210 rotates during the opening and closing process of the upper door 10. Specifically, when the upper shaft 210 can be used as a rotating shaft of the upper door 10, the upper shaft 210 includes an extending column 211 and an abutting portion 212, the abutting portion 212 is disposed at a lower portion of a peripheral wall of the extending column 211, the extending column 211 extends upward from a bottom of the lower door 20 into the upper door 10, the abutting portion 212 abuts against a bottom of the lower door 20, and the extending column 211 is configured to enable the upper door 10 to rotate around a central axis thereof. The abutment portion 212 may be a projection on the peripheral wall of the extension column 211, and it may be annular and disposed around the circumference of the extension column 211. Further, the abutting portion 212 may be provided at a lower end portion of the upper shaft body 210, and when the abutting portion 212 abuts the supporter 100, the hinge shaft 200 is at a lower limit position with respect to the supporter 100. Of course, in other embodiments, a stopper may be further provided at an upper portion of the middle shaft body 220 such that the stopper defines a lower limit position of the hinge shaft 200 with respect to the supporter 100. Similarly, the blocking member may be a protrusion on the peripheral wall of the middle shaft body 220, and the blocking member may also be annular and arranged around the circumference of the middle shaft body 220.
In one embodiment, the hinge structure may further include a protective sleeve 400. The protective cover 400 is arranged in the lower door body 20, and the transmission mechanism is arranged in the protective cover 400 and positioned on the protective cover 400. During the assembly, can assemble earlier drive mechanism and form a whole back on lag 400, set up lag 400 again with the door body of refrigerator in, this kind of assembly mode can make the structure of first conical gear 310 and second conical gear 320 among the drive mechanism more stable on the one hand, on the other hand also can let drive mechanism's wholeness stronger, make drive mechanism can become an optional part of door body 20 under the refrigerator, when need set up different drive mechanism in the door body 20 down, only need change drive mechanism and lag 400 with drive mechanism constitute whole can, the door body 20 down need not set up complicated mounting structure, the manufacturing of door body 20 down has been made things convenient for.
As shown in fig. 7, the protective sheath 400 may include a first sheath 410 and a second sheath 420, the first sheath 410 and the second sheath 420 each have a cavity, and the two cavities are combined to form a chamber for accommodating the transmission mechanism after the first sheath 410 and the second sheath 420 are connected. First bevel gear 310 and second bevel gear 320 are both positioned within the chamber. The protecting jacket 400 further has an opening through which the lower shaft body 230 penetrates, and after the protecting jacket 400 is assembled in the lower door body 20, the lower shaft body 230 penetrates into the protecting jacket 400 from top to bottom and is connected with the first bevel gear 310 in the protecting jacket 400.
The second aspect of the present invention further provides a refrigerator, which includes an upper door 10, a lower door 20 and the hinge structure in any of the above embodiments. The hinge structure is used to adjust the height of the upper door body 10. In particular, the refrigerator in the present embodiment may have two upper door bodies 10 of side-by-side combination doors and two lower door bodies 20 of side-by-side combination doors, and the refrigerator may include two hinge structures, each hinge structure being respectively and correspondingly disposed between one of the upper door bodies 10 and one of the lower door bodies 20.
Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.
Claims (10)
1. The utility model provides a hinge structure of refrigerator door body, the refrigerator includes the upper door body and is located the lower door body of upper door body below, its characterized in that, hinge structure includes:
the supporting piece is connected with the shell of the refrigerator and arranged between the upper door body and the lower door body;
the hinge shaft is vertically arranged and comprises an upper shaft body, a middle shaft body and a lower shaft body, the upper shaft body is abutted against the bottom of the upper door body, the middle shaft body is in threaded connection with the supporting piece, and the lower shaft body is positioned below the supporting piece;
the transmission mechanism comprises a first bevel gear and a second bevel gear meshed with the first bevel gear, and the first bevel gear is connected with the lower shaft body and can drive the lower shaft body to rotate;
wherein the hinge shaft is configured to ascend with respect to the supporter when rotated in a first direction about an axis parallel to a longitudinal direction thereof so as to ascend the upper door body, and to descend with respect to the supporter when rotated in a second direction about an axis parallel to the longitudinal direction thereof so as to descend the upper door body.
2. The hinge structure according to claim 1,
the tooth surface of the first bevel gear deviates from the middle shaft body, the second bevel gear is arranged below the first bevel gear, and the rotating axis of the second bevel gear is transversely arranged.
3. The hinge structure according to claim 2,
the rotation axis of the second bevel gear is parallel to the plane of the upper door body.
4. The hinge structure according to claim 3,
the center of the second bevel gear has a prism hole extending in the direction of the rotation axis of the second bevel gear.
5. The hinge structure according to claim 4,
the lower shaft body extends into the lower door body and is configured to enable the lower door body to rotate around the lower shaft body;
the transmission mechanism is arranged in the lower door body.
6. The hinge structure according to claim 5,
the lower door body comprises a hinge hole arranged at the top of the lower door body, the lower shaft body penetrates through the hinge hole and extends into the lower door body, a bearing is sleeved on a wheel hub of the first conical gear, and the bearing is matched with the hinge hole in a shaft hole mode.
7. The hinge structure of claim 5, further comprising:
the protecting sleeve is arranged in the lower door body, and the transmission mechanism is arranged in the protecting sleeve.
8. The hinge structure according to claim 1,
the upper shaft body comprises an extension column and an abutting part, the abutting part is arranged on the lower part of the peripheral wall of the extension column, the extension column upwards extends into the upper door body from the bottom of the lower door body, the abutting part abuts against the bottom of the lower door body, and the extension column is configured to enable the upper door body to rotate around the central axis of the upper door body.
9. The hinge structure according to claim 8,
the abutting part is arranged at the upper end of the middle shaft body, and when the abutting part abuts against the supporting part, the hinge shaft is located at the lower limit position relative to the supporting part.
10. The utility model provides a refrigerator, includes the upper door body and is located the lower door body of upper door body below, its characterized in that, refrigerator still includes:
a hinge construction according to any one of claims 1 to 9.
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CN201910457704.4A CN112013614A (en) | 2019-05-29 | 2019-05-29 | Hinge structure of refrigerator door body and refrigerator |
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CN201910457704.4A CN112013614A (en) | 2019-05-29 | 2019-05-29 | Hinge structure of refrigerator door body and refrigerator |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112922479A (en) * | 2019-12-05 | 2021-06-08 | 博西华电器(江苏)有限公司 | Refrigerator with a door |
CN115773042A (en) * | 2022-12-15 | 2023-03-10 | 珠海格力电器股份有限公司 | Hinge device, refrigerator and automatic adjusting method of refrigerator door body |
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CN210512307U (en) * | 2019-05-29 | 2020-05-12 | 青岛海尔电冰箱有限公司 | Hinge structure of refrigerator door body and refrigerator |
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CN112922479A (en) * | 2019-12-05 | 2021-06-08 | 博西华电器(江苏)有限公司 | Refrigerator with a door |
CN115773042A (en) * | 2022-12-15 | 2023-03-10 | 珠海格力电器股份有限公司 | Hinge device, refrigerator and automatic adjusting method of refrigerator door body |
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