CN112484383A

CN112484383A - Refrigerator bottle seat and refrigerator

Info

Publication number: CN112484383A
Application number: CN202011292336.1A
Authority: CN
Inventors: 程莎莎; 徐志国; 杨发林
Original assignee: Qingdao Haier Refrigerator Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Refrigerator Co Ltd; Haier Smart Home Co Ltd
Priority date: 2020-11-18
Filing date: 2020-11-18
Publication date: 2021-03-12
Anticipated expiration: 2040-11-18
Also published as: CN112484383B

Abstract

The invention discloses a refrigerator bottle seat and a refrigerator, wherein the refrigerator bottle seat comprises: the bottle stopper comprises a bottle seat body, a bottle rail and a rotating assembly, wherein the rotating assembly comprises a first rotating body, a second rotating body, a locking piece, a pushing piece and a resetting piece, the first rotating body and the second rotating body can rotate relatively, the locking piece is movably arranged between the first rotating body and the second rotating body, and the pushing piece and the resetting piece are arranged between the locking piece and the first rotating body; the first rotating body is fixedly arranged on the bottle seat body, and the second rotating body is fixedly arranged on the bottle rail. The pushing piece is provided with a butting part butted with the locking piece and a positioning rod fixedly connected with the butting part; the first rotating body is provided with a positioning groove and a locking positioning groove. The pushing member is switched between the locking state and the unlocking state under the action of external force: when the locking state, the locating lever is located the locking constant head tank to lock first rotation body and second rotation body. When the lock is unlocked, the positioning rod is positioned in the positioning groove to release the locking connection between the first rotating body and the second rotating body. The refrigerator bottle seat disclosed by the invention can conveniently realize the adjustment of the bottle rail.

Description

Refrigerator bottle seat and refrigerator

Technical Field

The invention relates to the technical field of refrigerator bottle seats, in particular to a refrigerator bottle seat and a refrigerator.

Background

In daily life, people mainly use a refrigerator to refrigerate and store food, and in order to store food conveniently and fully utilize the space of the refrigerator to store more food, a bottle seat for storing the food is usually arranged on the inner side of a refrigerator door body. The bottle seats on the traditional refrigerator are usually fixed in position, a plurality of bottle seats are generally detachably fixed on the door body lining, and bottle-shaped articles with different heights are stored according to the positions of the bottle seats and the height spaces of the bottle seats. In order to prevent the articles such as wine bottles from toppling over when the articles such as wine bottles are placed on the bottle seat and shake along with the door body, a bottle rail is often arranged on the bottle seat and abuts against the corresponding articles to prevent the articles from toppling over.

In order to improve the applicability of the bottle rail, the bottle rail is generally arranged to be rotatably adjusted, and the height of the bottle rail can be adjusted according to the requirements of different articles. But the adjustable structure of bottle rail of prior art is not convenient to be adjusted, and needs great power to promote the bottle rail and just can adjust in the accommodation process to influence and use experience and feel.

Disclosure of Invention

The invention aims to provide a refrigerator bottle seat to solve the defects in the prior art, and the refrigerator bottle seat can conveniently realize the adjustment of a bottle rail.

The invention specifically provides a refrigerator bottle seat, which comprises: a bottle base body;

the bottle rail is in rotating fit with the bottle seat body through a rotating assembly;

the rotating assembly comprises a first rotating body, a second rotating body, a locking piece, a pushing piece and a resetting piece, wherein the first rotating body and the second rotating body can rotate relatively, the locking piece is movably arranged between the first rotating body and the second rotating body, and the pushing piece and the resetting piece are arranged between the locking piece and the first rotating body; the locking member is arranged to be slidably engaged with the first rotor in the axial direction and to lock relative rotation with the first rotor in the circumferential direction; the first rotating body is fixedly arranged on the bottle seat body, and the second rotating body is fixedly arranged on the bottle rail;

the pushing piece is provided with a butting part butted with the locking piece and a positioning rod fixedly connected with the butting part; the first rotating body is provided with a positioning groove and a locking positioning groove;

the pushing piece is switched between a locking state and an unlocking state under the action of external force:

when the locking mechanism is in a locking state, the positioning rod is positioned in the locking positioning groove, and the pushing member pushes the locking member to move towards the second rotating body under the action of external force so as to lock the first rotating body and the second rotating body;

when the locking mechanism is in an unlocking state, the positioning rod is positioned in the positioning groove, and the locking piece resets and moves under the action of the resetting piece so as to release the locking connection between the first rotating body and the second rotating body.

Furthermore, the positioning groove and the locking positioning groove are arranged in an annular crossed mode at intervals.

Furthermore, the first rotating body is provided with a body part, a through hole penetrating through the body part along the axial direction, positioning grooves and locking positioning grooves which are arranged on the inner side wall of the body part at intervals in an annular crossing manner, and the depth of each locking positioning groove is smaller than that of each positioning groove;

each locking constant head tank is provided with first slant guide face and second slant guide face between two constant head tanks of adjacent both sides respectively, wherein first slant guide face orientation the constant head tank slope sets up, and second slant guide face orientation locking constant head tank slope sets up.

Furthermore, the rotating assembly is also provided with a pressing piece in sliding fit with the first rotating body, one end of the pressing piece is abutted against the positioning rod, and the pressing piece is provided with a rotary driving structure for driving the positioning rod to switch and move between the positioning groove and the locking positioning groove; the rotary driving structure is provided with a saw-tooth shape and is annularly arranged on the pressing piece.

Furthermore, a plurality of limiting blocks are arranged on the pressing piece, and a limiting sliding groove matched with the limiting blocks in a sliding fit mode is formed in the first rotating body.

Furthermore, the pressing piece is further provided with a rotary positioning hole, the locking piece is provided with a positioning column in sliding fit with the rotary positioning hole, and the locking piece is locked to rotate relative to the pressing piece through the matching of the positioning column and the rotary positioning hole.

Furthermore, the positioning rod is also provided with a third inclined guide surface which is opposite to the inclined direction of the first inclined guide surface.

Furthermore, the positioning rods are arranged in a plurality of annular arrangement on the abutting part.

Furthermore, the piece that resets is the compression spring of both ends butt respectively between the locking piece with first rotor.

Further, the refrigerator comprises the refrigerator bottle seat and a refrigerator door plate, and the refrigerator bottle seat is fixed on an inner liner of the refrigerator door plate.

Compared with the prior art, the locking device has the advantages that the locking piece is arranged to lock the first rotating body and the second rotating body which rotate relatively, and the first rotating body and the second rotating body are respectively fixed on the bottle rail and the bottle seat, so that the bottle rail is locked on the bottle seat body. And the locking piece is arranged to realize the position adjustment through the matching of the pushing piece and the reset piece, so that the position adjustment of the bottle rail is conveniently realized.

Drawings

FIG. 1 is a schematic structural diagram of a bottle seat of a refrigerator according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a bottle holder body in a bottle holder of a refrigerator according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a bottle rail in a bottle seat of a refrigerator according to an embodiment of the present invention;

FIG. 4 is a schematic view of a first exploded structure of a rotating assembly in a bottle holder of a refrigerator according to an embodiment of the present invention;

FIG. 5 is a schematic view of a second disassembled structure of a rotating assembly in a bottle seat of a refrigerator according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a first swivel in a bottle holder of a refrigerator according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a locking member in a bottle seat of a refrigerator according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a pushing member in a bottle seat of a refrigerator according to an embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a pressing member in a bottle holder of a refrigerator according to an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a refrigerator with a refrigerator bottle holder according to an embodiment of the present invention;

description of reference numerals: 1-a bottle seat body, 10-a mounting hole, 11-a side plate, 12-a limit boss, 2-a bottle rail, 20-a stop rod, 21-a connecting rod, 3-a rotating component,

31-first swivel, 310-locating hole, 311-body part, 312-locking locating slot, 313-locating slot, 314-first oblique guide surface, 315-second oblique guide surface, 316-limiting sliding slot,

32-second swivel, 320-locking groove,

33-locking piece, 330-reset positioning hole, 331-locking body part, 332-positioning column, 333-locking tooth, 334-shoulder part,

34-reset, 35-push, 351-abutment, 352-positioning rod, 353-third obliquely oriented guide surface.

36-pressing piece, 361-limiting block, 362-rotating positioning hole,

100-refrigerator, 200-refrigerator door panel.

Detailed Description

The embodiments described below with reference to the drawings are illustrative only and should not be construed as limiting the invention.

As shown in fig. 1 to 9, an embodiment of the present invention discloses a refrigerator bottle holder, including: the bottle holder comprises a bottle holder body 1, a bottle rail 2 and a rotating assembly 3, wherein the bottle rail 2 is in rotating fit with the bottle holder body 1 through the rotating assembly 3.

The bottle seat body 1 is used for placing articles such as wine bottles and beverage bottles, and the bottle barriers 2 are used for abutting against the corresponding articles to prevent the articles from toppling over. In this embodiment, the bottle rail 2 is rotatably mounted on the bottle seat body 1 through the rotating component 3, so that the bottle rail 2 can be adjusted as required to conveniently block the articles so as to prevent the articles from falling.

As shown in fig. 2, the bottle holder body 1 has two side plates 11 disposed oppositely, and the side plates 11 have mounting holes 10.

Specifically, as shown in fig. 3, the bottle stopper 2 has a blocking rod 20 and two connecting rods 21 disposed at opposite ends of the blocking rod 20, and the two connecting rods 21 are disposed in parallel and are located at the same side of the blocking rod 20. In order to conveniently realize the production and manufacture of the bottle rail 2, the two connecting rods 21 and the blocking rod 20 are integrally bent, and the strength of the bottle rail 2 can also be improved by adopting the integral bending.

As shown in fig. 4 to 5, the rotating assemblies 3 are provided in two and are respectively provided on the first connecting rod 21 and the second connecting rod 22. The rotating assembly 3 has a first rotator 31, a second rotator 32, a locking member 33 movable between the first rotator 31 and the second rotator 32, a pushing member 35 and a resetting member 34 disposed between the locking member 33 and the first rotator 31. The first rotating body 31 is fixedly arranged on the bottle seat body 1, and the second rotating body 32 is fixedly arranged on the bottle rail 2. In particular, the second swivel 32 is fixed to the corresponding connecting rod 21 of the bottle rail 2.

The lock member 33 is slidably fitted to the first rotor 31 in the axial direction but the lock member 33 and the first rotor 31 are arranged to restrict relative rotation in the circumferential direction. The locking member 33 is movable between the first rotator 31 and the second rotator 32 and cooperates with the second rotator 32 to lock the relative rotation with the second rotator 32 when the locking member 33 moves towards the second rotator 32, so as to lock and fix the first rotator 31 and the second rotator 32. In the process that the locking piece 33 moves away from the second rotator 32, the locking piece 33 and the second rotator 32 are released from being matched with each other, and then the relative rotation between the second rotator 32 and the first rotator 31 is realized. The pusher 35 is provided between the first rotator 31 and the lock member 33 and pushes the lock member 33 to move in the second rotator direction by an external force. The reset member 34 is disposed between the lock member 33 and the second rotor 32, and the repulsive force accumulated in the reset member 34 after the external force is cancelled is used as a pushing force for moving the lock member 33 in a direction away from the second rotor 32.

As shown in fig. 6, the first rotating body 31 has a body 311, a through hole 310 penetrating the body 311, and locking

positioning grooves

312 and 313 arranged on the inner side wall of the body 311 at intervals of annular intersection. The body portion 311 is fixed to the side plate 11 of the bottle holder body 1, and the through hole 310 is located opposite to the mounting hole. The locking positioning groove 312 is provided with a plurality of pushing pieces 35 which are arranged on the inner side wall of the body portion 311 at annular intervals, the positioning groove 313 is also provided with a plurality of pushing pieces 35 which are arranged on the inner side wall of the body portion 311 at annular intervals, the positioning groove 313 and the locking positioning groove 312 are respectively used for positioning the pushing pieces 35 in two different states so as to realize the positioning of the pushing pieces 35 in different states, the pushing pieces 35 are positioned in the locking positioning groove 312 in the locking state, and the pushing pieces 35 are positioned in the positioning groove 313 in the unlocking state. The push member 35 is switched between the detent 313 and the lock detent 312 by an external force.

As a further preferred solution, in order to achieve continuous switching of the pushing member 35 between the positioning groove 313 and the locking positioning groove 312, the locking positioning groove 312 is arranged crosswise to the positioning groove 313. In order to achieve stability of the pushing member 35 during switching between the positioning groove 313 and the locking positioning groove 312, a first inclined guiding surface 314 and a second inclined guiding surface 315 are respectively disposed between each locking positioning groove 312 and two adjacent positioning grooves 313, wherein the first inclined guiding surface 314 is disposed to be inclined toward the positioning groove 313, and the second inclined guiding surface 315 is disposed to be inclined toward the locking positioning groove 312.

The pushing member 35 slides in the positioning groove 313 and moves along the second inclined guide surface 315 toward the locking positioning groove 312 after leaving the positioning groove 313, and is finally positioned in the locking positioning groove 312 to be in a locking state. In the process of switching the pushing member 35 from the locking state to the unlocking state, the pushing member 35 slides along the locking positioning groove 312 and slides along the first inclined guide surface 314 to the adjacent other positioning groove 313 after leaving the locking positioning groove 312 and is positioned in the positioning groove 313. As a further preferable mode, a third inclined guide surface 353 is further provided on the pushing member 35, the third inclined guide surface 351 is opposite to the inclination direction of the first inclined guide surface 314 and the inclination direction of the second inclined guide surface 315, and the third inclined guide surface 351 slides along the first inclined guide surface 314 after the first inclined guide surface 314 contacts.

Specifically, the depth of the locking positioning groove 312 is smaller than the depth of the positioning groove 313. Both the locking positioning groove 312 and the positioning groove 313 open toward the second rotator 32, and since the depth of the locking positioning groove 312 is smaller than that of the positioning groove 313, the distance from the groove bottom of the locking positioning groove 312 to the second rotator 312 is closer than the distance from the groove bottom of the positioning groove 313 to the second rotator 312.

The positioning slot 313 and the locking positioning slot 312 are arranged at different depths, so that two working positions are actually formed, the pushing member 35 can be switched between the locking slot 313 and the locking positioning slot 312 under the action of external force, and under the action of the resetting member 34 in an initial state, the resetting member 34 has a tendency of pushing the locking member 33 to move in a direction away from the second rotator 32, so that the pushing member 35 is arranged in the positioning slot 313 far away from the second rotator 32. At this time, the second rotator 32 and the locking member 33 are not mutually matched, so that the first rotator 31 and the second rotator 32 can relatively rotate, and at this time, the pushing member 35 is in an unlocking state.

And the external force overcomes the resilience force of the reset piece 34 in the external force pushing action, and drives the pushing piece 35 to slide along the positioning groove 313, the pushing piece 35 is pushed to be positioned in the locking positioning groove 312 under the action of the external force torsion force after the pushing piece 35 slips from the positioning groove 313, at this time, the pushing piece 35 is in a locking state, and the pushing piece 35 can push the locking piece 33 to move towards the second rotator 32, so that the locking fixation between the first rotator 31 and the second rotator 32 is realized.

Similarly, the pushing member 35 slides along the locking positioning slot 312 under the pushing action of the external force and rotates toward the positioning slot 313 under the action of the external force and the torsion after slipping off the locking positioning slot 312, at this time, the external force cancels the action force of the resetting member 34 to push the pushing member 35 to move toward the slot bottom of the positioning slot 313 through the locking member 33, so that the locking member 33 and the second rotator 32 are in a separated state, and the mutual rotation between the first rotator 31 and the second rotator 32 is realized.

In the embodiment of the invention, the pushing member 35 is continuously switched between the positioning groove 313 and the locking positioning groove 312, so that the locking member 33 is driven to be switched between a state of being matched with and separated from the second rotator 32, and further the locking or unlocking of the rotation between the first rotator 31 and the second rotator 32 is realized, and the adjustment of the bottle rail 2 is conveniently realized.

As shown in fig. 8, the pusher 35 has an abutting portion 351 abutting against the lock 33 and a positioning rod 352 connected and fixed to the abutting portion 351; the abutting portion 351 abuts on the lock member 33, the positioning lever 352 extends in a direction away from the lock member 33 and fits into the positioning groove 313, and the positioning lever 352 fits into the lock positioning groove 312 in shape. Because the pushing element 35 needs to be changed between the positioning slot 313 and the locking positioning slot 312, and the positioning slot 313 and the locking positioning slot 312 are arranged in an annular crossed manner at intervals in the embodiment, the positioning rod 352 of the pushing element 35 can move along the arrangement direction of the positioning slot 313 and the locking positioning slot 312, so that the abutting part 351 of the pushing element 35 and the locking piece 33 are driven to rotate relatively.

For better stability of the interaction between the pusher 35 and the locking member 33, the abutment 351 is annular in shape in this embodiment. Accordingly, as shown in fig. 7, the locking member 33 has a positioning post 332 disposed at one end of the locking body 331 and extending toward the first rotating body 31, and a locking tooth 333 disposed on a side wall of the locking body 331, and the positioning post 332 has a cross section smaller than that of the locking body 331, so that an annular shoulder 334 is formed between the positioning post 332 and the locking body 331. Wherein the annular abutting portion 351 is sleeved on the positioning post 332 and finally abuts on the shoulder portion 334. The abutment 351 and the shoulder 334 are relatively rotatable.

The stability of the abutment 351, which acts as a chassis for the positioning rod 352, affects the stability of the positioning rod 352 in the positioning groove 313 and the locking positioning groove 312, so the arrangement of the above structure can ensure that the abutment 351 maintains the stability of the entire pusher 35 during movement with the positioning rod 352.

The positioning rods 352 are annularly arranged on the abutting portion 351, and the annularly arranged positioning rods 352 enable at least two opposite positioning rods 352 to be located in the corresponding positioning grooves 313 or the locking positioning grooves 312, so that the stability of the positioning of the pushing member 35 in the grooves can be ensured. The third diagonal guide surface 353 is provided on the corresponding positioning rod 352.

The positioning column 332 not only serves to stabilize the pushing member 35, but also is provided with a positioning hole matched with the positioning column 332 on the first rotating body 31, and the locking member 33 and the first rotating body 31 can slide in the axial direction but can be locked and fixed in the circumferential direction through the matching of the positioning hole and the positioning column 332, that is, the first rotating body 31 and the locking member 33 cannot rotate relatively but can slide relatively in the axial direction of the locking member 33.

The locking teeth 333 on the locking member 33 are used for positioning with the second rotator 32, a locking groove 320 matched with the locking teeth 333 is arranged on the second rotator 32, and the locking member 33 moves towards the second rotator 32 under the action of the pushing member 35 so that the locking teeth 333 are positioned in the locking groove 320, thereby realizing the locking and fixing of the second rotator 32 and the locking member 33. When the lock member 33 moves in a direction away from the second rotor 32, the locking grooves 320 are separated from the locking teeth 333 to release the locked state of the lock member 33 and the second rotor 32. The locking teeth 333 are annularly provided on the lock body portion 331.

A reset piece positioning hole 330 is further provided at an end of the lock body 331 away from the positioning post 332, one end of the reset piece 34 is positioned in the reset piece positioning hole 330, and the other end of the reset piece 34 abuts on the second rotating body 32. The restoring member 34 in this embodiment is a compression spring provided between the lock member 33 and the second rotator 32.

As shown in fig. 9, the rotating assembly 3 further includes a pressing member 36 slidably engaged with the first rotating body 31, one end of the pressing member 36 abuts against the positioning rod 352, and the pressing member 36 is provided with a rotation driving structure 360 for driving the positioning rod 352 to switch between the positioning slot 313 and the locking positioning slot 312; the rotary driving structure 360 has a saw-tooth shape and is annularly arranged on the pressing member.

The rotation driving structure 360 has a first driving inclined plane and a second driving inclined plane which are oppositely arranged, the inclined directions of the first driving inclined plane and the second driving inclined plane are opposite, and after the positioning rod 352 is abutted to the rotation driving structure 360, the rotation positioning rod 352 can slide along the first driving inclined plane or the second driving inclined plane, so that the rotation of the positioning rod 352 is realized. Since the positioning rod 352 is provided with the third inclined guide surface 353, the third inclined guide surface 353 is brought into contact with the first driving inclined surface or the second driving inclined surface and slides relative to the first driving inclined surface or the second driving inclined surface after the pressing piece 36 is brought into contact with the positioning rod 352. The positioning rod 352 and the pressing piece 36 can slide relatively easily through the inclined surface, and then relatively rotate in the sliding process along the inclined surface, so that the positioning rod 352 rotates to the first inclined guide surface 314 or the second inclined guide surface 315, is positioned in the positioning groove 313 under the guide effect of the first inclined guide surface 314, and is positioned in the locking positioning groove 312 under the guide effect of the second inclined guide surface 315, and the switching of the positioning rod 352 between the positioning groove 313 and the locking positioning groove 312 is realized conveniently through the structure.

Further, a plurality of limit blocks 361 are arranged on the pressing member 36, and a limit sliding groove 316 which is matched with the limit blocks 361 and is in sliding fit with the first rotating body 31 is arranged on the first rotating body. The limit block 361 and the limit sliding groove 316 are matched to prevent the pressing piece 36 and the first rotating body 31 from rotating relatively, and only the pressing piece 36 can move along the extending direction of the limit sliding groove 316, so that the locking piece 33 can be conveniently controlled only by pressing the pressing piece 36. In a specific embodiment, the stopper 361 is provided in plurality and annularly disposed on the pressing member 36.

In this embodiment, the pressing member 36 is further provided with a rotation positioning hole 362, the positioning post 332 on the locking member 33 is matched with the rotation positioning hole 362, and the positioning post 332 can slide in the axial direction in the rotation positioning hole 362 but the positioning post 332 cannot rotate in the axial direction in the rotation positioning hole 362. The locking member 33 is locked to rotate relatively to the pressing member 36 in the circumferential direction by the engagement of the positioning post 332 and the rotation positioning hole 362, and the pressing member 36 is locked to rotate relatively to the first rotating body 31 by the engagement of the limiting block 361 and the limiting sliding groove 316. The arrangement of the above structure realizes the locking of the positioning column 332 and the first rotating body 31 in relative rotation.

As shown in fig. 10, another embodiment of the present invention further discloses a refrigerator 100, which includes the above-mentioned refrigerator bottle holder and refrigerator door panel 200, wherein the refrigerator bottle holder is fixed on the inner liner of the refrigerator door panel 200.

The construction, features and functions of the present invention are described in detail in the embodiments illustrated in the drawings, which are only preferred embodiments of the present invention, but the present invention is not limited by the drawings, and all equivalent embodiments modified or changed according to the idea of the present invention should fall within the protection scope of the present invention without departing from the spirit of the present invention covered by the description and the drawings.

Claims

1. A refrigerator bottle holder, comprising:

a bottle base body;

2. The refrigerator bottle holder as claimed in claim 1, wherein the positioning groove and the locking positioning groove are disposed at an annular crossing interval.

3. The bottle holder of claim 2, wherein the first rotating body has a body, a through hole penetrating the body in an axial direction, and positioning grooves and locking positioning grooves arranged on an inner side wall of the body at intervals of annular crossing, and a depth of the locking positioning groove is smaller than a depth of the positioning groove;

4. The bottle holder of the refrigerator as claimed in claim 3, wherein the rotating assembly further has a pressing member slidably engaged with the first rotating body, one end of the pressing member abuts against the positioning rod, and the pressing member is provided with a rotation driving structure for driving the positioning rod to switch between the positioning slot and the locking positioning slot; the rotary driving structure is provided with a saw-tooth shape and is annularly arranged on the pressing piece.

5. The bottle holder of a refrigerator as claimed in claim 4, wherein the pressing member is provided with a plurality of stoppers, and the first rotating body is provided with a stopper sliding groove adapted to and slidably engaged with the stoppers.

6. The bottle holder of a refrigerator as claimed in claim 5, wherein the pressing member further comprises a rotation positioning hole, the locking member further comprises a positioning post slidably engaged with the rotation positioning hole, and the locking member is locked for rotation relative to the pressing member by the engagement between the positioning post and the rotation positioning hole.

7. The bottle holder of claim 3, wherein the positioning rod further comprises a third inclined guiding surface opposite to the first inclined guiding surface.

8. The bottle holder of a refrigerator as claimed in claim 1, wherein the positioning rod is provided in plurality and arranged in a ring shape on the abutting portion.

9. The bottle holder for the refrigerator as claimed in claim 1, wherein the reset member is a compression spring having two ends respectively abutting between the locking member and the first rotating body.

10. A refrigerator comprising the refrigerator bottle holder as claimed in any one of claims 1 to 9 and a refrigerator door panel, the refrigerator bottle holder being fixed to an inner liner of the refrigerator door panel.