CN105135818B - Refrigerated wine cabinet - Google Patents

Abstract

The invention provides a refrigerated wine cabinet, which comprises: a hollow cabinet body which is internally limited with a wine storage space; and a plurality of wine bottle holding members, wherein at least a part of the wine bottle holding members are fixed on an inner layer member of the circumferential side wall of the hollow cabinet body along the circumferential direction. The refrigerated wine cabinet has novel structure due to the special arrangement of the plurality of wine bottle holding members, and greatly enriches the types of wine cabinets.

Description

Refrigerated wine cabinet

Technical Field

The invention relates to wine storage, in particular to a refrigerated wine cabinet.

Background

Along with the continuous improvement of the living standard of people, the wine cabinet is taken as a household appliance to enter a common household. The existing wine cabinets work in a similar manner to refrigerators and are similar in structure to cabinet-type refrigerators, for example, some existing wine cabinets can include square cabinet bodies, partition plates and grooves. The baffle is arranged in the cabinet body at intervals, the groove is arranged on the baffle, the baffle can be obliquely arranged in the cabinet body, and the inclination angle is 0-15 degrees. The shelf can also be planed into an inclined groove or a semicircular groove with low front and high rear according to the appearance of the wine bottle. The structure of the existing wine cabinet is single. A plurality of wine bottles are placed on each layer of partition plate, if a user wants to search for wine required by the user, if the searched wine bottles are positioned close to the rear wall of the refrigerator, other wine bottles in front of the searched wine bottles need to be moved, so that shaking of the other wine bottles is caused, and the influence on wine in the other wine bottles is caused.

Disclosure of Invention

The invention aims to overcome at least one defect of a refrigeration wine cabinet in the prior art and provides the refrigeration wine cabinet with a novel structure.

A further object of the invention is to maintain as much as possible a constant temperature environment in the wine cabinet.

It is a further object of the present invention to minimize vibration of other wine bottles when they are removed and placed.

It is yet a further object of the present invention to increase the efficiency of taking and placing wine bottles.

In order to achieve at least one of the above objects, the present invention provides a refrigerated wine cabinet comprising:

a hollow cabinet body which is internally limited with a wine storage space;

and a plurality of wine bottle holding members, wherein at least a part of the wine bottle holding members are fixed on an inner layer member of the circumferential side wall of the hollow cabinet body along the circumferential direction.

Optionally, an access port for the wine bottle to pass through is formed in the hollow cabinet body; and the refrigerated wine cabinet further includes a wine bottle access mechanism configured to receive wine bottles from the access port and store the wine bottles on or remove the wine bottles from the designated wine bottle holding members and deliver the wine bottles to the access port.

Optionally, the cross section of the wine storage space is circular.

Optionally, the circumferential outer wall of the hollow cabinet body is cylindrical.

Optionally, the plurality of wine bottle holding members are arranged in multiple layers in a vertical direction, and the wine bottle holding members of each layer are fixed on the inner layer member at intervals in a circumferential direction.

Optionally, the wine bottle holding members of each layer are uniformly arranged along the circumferential direction; the spacing between two adjacent layers of wine bottle retaining members along the vertical direction is equal.

Optionally, the wine storage space of the hollow cabinet body is communicated to the outside of the hollow cabinet body only through the access port.

Optionally, the access port is provided on a top wall of the hollow cabinet.

Optionally, the wine bottle access mechanism includes:

a rotary motion mechanism including a rotation shaft extending in a vertical direction;

a lifting mechanism, comprising:

the lifting motion rack is arranged on the rotating shaft along the vertical direction; a lifting movement gear engaged with the lifting movement rack to move on the lifting movement rack; and

a telescoping mechanism, comprising:

a fixed arm extending in a horizontal direction which moves up and down with the elevating movement gear with respect to the elevating movement rack;

a movable arm with a telescopic movement rack and extending along the horizontal direction, wherein a picking and placing claw is fixed at the far end of the movable arm;

the telescopic motion gear is rotatably arranged on the fixed arm and meshed with the telescopic motion rack on the movable arm.

Optionally, the picking and placing claw comprises a first bottom hurdle and a first lateral hurdle;

the first bottom hurdle comprises a first straight rod and two second straight rods which are positioned on the same horizontal plane, and each second straight rod is vertically arranged at one end of the first straight rod;

the first side hurdle comprises four arc-shaped baffles which are positioned on the same cylindrical surface and extend along the vertical direction; the axis of each arc baffle is positioned on the central symmetry plane of the picking and placing claw, the distance between each arc baffle and the first straight rod is larger than the radius of the cylindrical surface, and the distance between each arc baffle and each second straight rod is smaller than the radius of the cylindrical surface; two arc baffles are fixed on each second straight rod;

each of the wine bottle retaining members includes a second bottom rail and a second side rail;

each second bottom hurdle comprises a third straight rod, a fourth straight rod and two fifth straight rods which are positioned on the same horizontal plane, the third straight rod of each second bottom hurdle is positioned on the central symmetry plane of the corresponding wine bottle holding member, the fourth straight rod of each second bottom hurdle is perpendicular to the third straight rod on the fourth straight rod, and each fifth straight rod of each second bottom hurdle is perpendicular to one end of the fourth straight rod on which the fourth straight rod of each second bottom hurdle is arranged;

each second side rail comprises four arc-shaped baffles which are positioned on the same cylindrical surface and extend in the vertical direction; the axis of each arc baffle of each second side hurdle is positioned on the central symmetrical plane of the corresponding wine bottle holding member, the distance between the axis of each arc baffle and the fourth straight rod of the corresponding wine bottle holding member is larger than the radius of the cylindrical surface, and the distance between the axis of each arc baffle and the fifth straight rod of the corresponding wine bottle holding member is equal to the radius of the cylindrical surface; two arc baffles are fixed on the third straight rod of each wine bottle holding member, and one arc baffle is fixed on each fifth straight rod of each wine bottle holding member;

the radius of each arc-shaped baffle of the picking and placing claw is equal to that of each arc-shaped baffle of each wine bottle holding member.

The refrigerated wine cabinet has novel structure due to the special arrangement of the plurality of wine bottle holding members, and greatly enriches the types of wine cabinets.

Furthermore, as the wine bottles are taken and placed only through the access opening in the refrigerated wine cabinet, the constant temperature environment in the wine cabinet can be prevented from being damaged, and the quality of other wines is not affected.

Furthermore, due to the special structure of the wine bottle storing and taking mechanism in the refrigerated wine cabinet, the wine bottle storing and taking mechanism can not cause vibration of other wine bottles when taking and putting the wine bottles, so that the quality of other wine can be ensured.

Furthermore, due to the special structure of the taking and placing claw and the wine bottle holding member in the refrigerated wine cabinet, the efficiency of taking and placing wine bottles is obviously improved.

The above, as well as additional objectives, advantages, and features of the present invention will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present invention when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a schematic cross-sectional view of a refrigerated wine cabinet according to one embodiment of the present invention;

FIG. 2 is a schematic side view of a refrigerated wine cabinet according to one embodiment of the present invention wherein the wine bottle retaining member is not shown;

FIG. 3 is a schematic cross-sectional view of a refrigerated wine cabinet according to one embodiment of the present invention wherein the wine bottle retaining member is not shown;

FIG. 4 is a schematic block diagram of the inner member of the peripheral side wall of the refrigerated merchandiser of FIG. 3 and the wine bottle retaining member thereon;

FIG. 5 is a schematic block diagram of the internal structure of a refrigerated merchandiser in accordance with one embodiment of the present invention;

FIG. 6 is a schematic top view of a pick-and-place claw in a refrigerated wine cabinet according to one embodiment of the invention;

FIG. 7 is a schematic top view of a wine bottle retaining member in a refrigerated wine cabinet according to one embodiment of the invention;

FIG. 8 is a schematic block diagram of the engagement of the access claw and the bottle holding member in the refrigerated wine cabinet in accordance with one embodiment of the present invention;

FIG. 9 is a schematic block diagram of the operation of a refrigerated wine cabinet according to one embodiment of the present invention;

FIG. 10 is a schematic, schematic illustration of the operation of a refrigerated wine cabinet according to one embodiment of the present invention.

Detailed Description

FIG. 1 is a schematic cross-sectional view of a refrigerated merchandiser in accordance with one embodiment of the present invention. Embodiments of the present invention provide a novel structure refrigerated wine cabinet comprising a hollow cabinet body 10 and a plurality of wine bottle retaining members 20. Specifically, the hollow cabinet 10 defines a wine storage space therein. At least a portion of the bottle holding member 20 is secured circumferentially to the inner member 11 of the circumferential side wall of the hollow cabinet 10. The cross section of the wine storage space can be round. The circumferential outer wall of the hollow cabinet 10 may be cylindrical. The plurality of wine bottle holding members 20 are arranged in multiple layers in the vertical direction, and the wine bottle holding members 20 of each layer are fixed to the inner layer member 11 at intervals in the circumferential direction. Specifically, the wine bottle holding members 20 of each layer are uniformly arranged in the circumferential direction, and the pitches in the vertical direction between the adjacent two layers of wine bottle holding members 20 are equal.

FIG. 2 is a schematic side view of a refrigerated wine cabinet according to one embodiment of the present invention wherein the wine bottle retaining member is not illustrated. In the refrigerated wine cabinet according to the embodiment of the present invention, the inner member 11 may be a general inner container of a refrigerator, and the wine bottle holding member 20 may be directly mounted on an inner wall of the inner container. In an embodiment of the present invention, the circumferential side wall of the hollow cabinet 10 may include an inner layer member 11 and a foaming layer 14 and a housing 15 located outside the inner layer member 11. Refrigerated wine cabinets in accordance with embodiments of the present invention may have an arcuate door that can be opened or closed for access to the wine bottles 30. For example, the refrigerated wine cabinet may be formed of two halves, one of which has a vertical side pivotally connected to a corresponding vertical side on the other half, the other three sides being door-operated. Since the bottle holding members 20 are circumferentially fixed to the inner layer member 11 of the circumferential side wall of the hollow cabinet 10, the adjacent two bottle holding members 20 have a gap, and thus do not affect the bottles 30 on the other bottle holding members 20 when taking and putting wine.

In some preferred embodiments of the present invention, as shown in fig. 3, fig. 3 is a schematic cross-sectional view of a refrigerated wine cabinet according to one embodiment of the present invention, wherein the wine bottle retaining member is not shown. The refrigerated wine cabinet of the embodiment of the invention can be a compression type refrigeration wine cabinet, and comprises an evaporator, a condenser, a compressor, an expansion valve and the like. An evaporator 13 may be disposed on the outer periphery of the inner layer member 11 forming the circumferential side wall, a foaming layer 14 may be disposed on the outer side of the evaporator 13, a housing 15 may be disposed on the outer side of the foaming layer 14, and a condenser 16 may be disposed on the outer side of the housing 15; that is, in the embodiment of the present invention, the circumferential side wall of the hollow cabinet 10 may include the inner layer member 11, the evaporator 13, the foaming layer 14, the outer case 15, and the condenser 16. In the refrigerated wine cabinet of the present invention, the inner member 11 forming the circumferential side wall does not include the inner container of the prior art refrigerated freezer.

Fig. 4 is a schematic block diagram of the inner member of the peripheral side wall and the bottle retaining member thereon in the refrigerated merchandiser of fig. 3. The inner member 11 of the refrigerated merchandiser may be comprised of an annular mounting 111 and a plurality of support bars and a plurality of annular bars 114. The support rod has a top horizontal section 112 extending horizontally outwardly in a radial direction from the outer peripheral wall of the annular mounting base 111, and circumferential vertical sections 113 extending downwardly in a vertical direction from the top horizontal section 112 by bending, wherein each circumferential vertical section 113 is located in a cylindrical surface. The plurality of annular rods 114 extend in the circumferential direction at different vertical heights on the cylindrical surface where the circumferential vertical sections 113 of the support rods are located, and are fixedly connected with the circumferential vertical sections 113 of each support rod at the crossing positions thereof. A bottle holding member 20 may be mounted at the intersection of each annular bar 114 and the circumferential vertical section 113 of the support bar. The invention utilizes the inner layer component 11 in the form of the hurdle made of the rod piece, thereby greatly reducing the cost of the refrigerated wine cabinet while improving the mechanical property of the refrigerated wine cabinet.

In some embodiments of the present invention, the hollow cabinet 10 is provided with an access port 12 through which the wine bottle 30 passes; and the refrigerated wine cabinet further includes a wine bottle access mechanism configured to receive wine bottles 30 from access port 12 and store wine bottles 30 on designated wine bottle holding members 20 or to remove wine bottles 30 from designated wine bottle holding members 20 and deliver to access port 12. In particular, the wine storage space of the hollow cabinet 10 may be communicated to the outside of the hollow cabinet 10 only through the access port 12. It will be appreciated by those skilled in the art that the hollow cabinet 10 may also be provided with a door for use during disassembly and maintenance or during large volumes of liquor. In other cases, the door body is not opened so as to maintain the constant temperature environment of the wine storage space. To facilitate cleaning or viewing of the wine storage space, in some alternative embodiments the peripheral wall and top wall of the hollow cabinet 10 are integrally connected to the base 18 in the form of a complete housing enclosure.

Fig. 5 is a schematic structural view of the internal structure of a refrigerated wine cabinet according to one embodiment of the present invention. The wine bottle access mechanism may include a rotational movement mechanism, a lifting mechanism, and a telescoping mechanism. The rotary motion mechanism includes a rotation shaft 41 extending in the vertical direction, and a power source 47 connected to the rotation shaft 41 through a reduction gear set. The shaft 41 is connected to a power source 47 to be driven to rotate to drive the elevating mechanism and the telescopic mechanism directly or indirectly mounted thereon. The lifting mechanism may comprise: a lifting movement rack 43 provided on the rotation shaft 41 in the vertical direction (the lifting movement rack 43 may be provided separately on the rotation shaft 41 or may be formed as one piece with the rotation shaft 41), a lifting movement gear (not shown in the drawing) engaged with the lifting movement rack 43 to move on the lifting movement rack 43. The telescoping mechanism may comprise: a fixed arm (not shown in the figure) extending in the horizontal direction which moves up and down with respect to the elevating movement rack 43 along with the elevating movement gear; a movable arm 44 with a telescopic moving rack extending along the horizontal direction, and a picking and placing claw 45 is fixed at the far end of the movable arm; and a telescopic motion gear (not shown) rotatably mounted on the fixed arm and engaged with a telescopic motion rack on the movable arm 44. The fixed frame 46 is configured to mount the fixed arm and the elevating movement gear such that the fixed arm moves up and down with the elevating movement gear with respect to the elevating movement rack 43.

In some embodiments of the invention, the inner member 11 is mounted to the base 18 in a refrigerated merchandiser. Rolling bearings are mounted in the annular mounting seat 111 of the inner member 11 and in the annular hole of the base 18 for mounting and holding the rotating shaft 41. The base 18 has a region where the power source 47 is mounted, and the power source 47 is connected to the rotating shaft 41 through a reduction gear set. The compressor 17 is arranged beside the power source 47 so as to reasonably utilize the effective space in the hollow cabinet 10, and the compressor is assembled together so as to be convenient to manage and arranged in the hollow cabinet 10, so that the compressor can be effectively cooled. In some other embodiments of the invention, the compressor 17 and the drive source 47 may also be disposed outside the hollow cabinet 10. The compressor 17, the drive source 47 and the base 18 and the reduction gear set may all be disposed within a cavity in the bottom foam layer, with the shaft 41 being secured to the rotary motion gear 42 of the reduction gear set through the foam layer.

The pick-and-place claw 45 is configured to: vertically upward from the lower portion of the wine bottle holding member 20 to remove the wine bottle 30 from the wine bottle holding member 20, and vertically downward from the upper portion of the wine bottle holding member 20 to place the wine bottle 30 onto the wine bottle holding member 20. In particular, FIG. 6 is a schematic top view of a pick-and-place claw in a refrigerated wine cabinet according to one embodiment of the invention; the pick-and-place claw 45 comprises a first bottom rail and a first side rail. The first bottom rail includes a first straight bar 451 and two second straight bars 452 on the same horizontal plane, each second straight bar 452 being vertically disposed at one end of the first straight bar 451. The first side hurdle comprises four arc baffles 453 which are positioned on the same cylindrical surface and extend in the vertical direction; the axis of each arc damper 453 is located on the central symmetry plane of the pick-and-place claw 45 and is spaced from the first straight rod 451 by a distance greater than the radius of the cylindrical surface and from each second straight rod 452 by a distance less than the radius of the cylindrical surface. Two arc baffles 453 are fixed on each second straight rod 452.

FIG. 7 is a schematic top view of a wine bottle retaining member in a refrigerated wine cabinet according to one embodiment of the invention. Each wine bottle retaining member 20 includes a second bottom rail and a second side rail. The following description will take a bottle holding member 20 as an example: the second bottom hurdle comprises a third straight rod 201, a fourth straight rod 202 and two fifth straight rods 203 which are positioned on the same horizontal plane, the third straight rod 201 is positioned on the central symmetry plane of the wine bottle holding member 20, the fourth straight rod 202 is vertically arranged with the third straight rod 201, and each fifth straight rod 203 is vertically arranged at one end of the fourth straight rod 202; the second siderail includes four vertically extending arcuate baffles 204 on the same cylindrical surface; the axis of each arc baffle 204 is located on the central symmetry plane of the wine bottle holding member 20, and the distance from the fourth straight bar 202 is larger than the radius of the cylindrical surface, and the distance from each fifth straight bar 203 is equal to the radius of the cylindrical surface; two arc baffles 204 are fixed on the third straight rod 201, and one arc baffle 204 is fixed on each fifth straight rod 203. In particular, as shown in fig. 8, the radius of each arcuate flap 453 of the pick-and-place claw 45 and each arcuate flap 204 of each wine bottle holding member 20 are equal to ensure that the pick-and-place claw 45 can traverse the respective wine bottle holding member 20 without interfering with each other when moving vertically. The particular dimensions of the pick-and-place claw 45 and the corresponding wine bottle retaining member 20 allow the pick-and-place claw 45 to move vertically downward from an upper portion of the corresponding wine bottle retaining member 20 and vertically upward from a lower portion of the corresponding wine bottle retaining member 20.

FIG. 9 is a schematic block diagram of the operation of a refrigerated wine cabinet according to one embodiment of the present invention; FIG. 10 is a schematic illustration of the operation of a refrigerated wine cabinet according to one embodiment of the present invention; solid arrows in the figure indicate the process of storing the wine bottles, dashed arrows in the figure indicate the process of taking the wine bottles out, and small circles in the figure may represent the wine bottles. The access opening 12 of the refrigerated merchandiser may preferably be provided in the top wall of the hollow cabinet 10.

The process of removing the wine bottle 30 includes the steps of:

step one: the pick-and-place claw 45 can be brought from the home position by the bottle accessing mechanism to a position slightly below the front of the corresponding bottle holding member 20, as at a, and the mechanism involved in the work can be a rotary motion mechanism and a lifting mechanism.

Step two: the pick-and-place claw 45 is moved laterally from a to B and the structure involved in the operation may have a telescopic mechanism, with the wine bottle 30 resting on the bottle holding member 20.

Step three: the pick-and-place claw 45 is moved vertically upward from position B to position C so that the wine bottle 30 is removed from the bottle holding member 20, the wine bottle 30 is positioned on the pick-and-place claw 45, and a lifting mechanism is involved in the work.

Step four: the pick-and-place claw 45 is moved laterally from C to D so that the pick-and-place claw 45 moves to a position slightly above the front of the corresponding wine bottle holding member 20 and this position is on the cylinder formed by the rotation of the access port 12 about the axis of the hollow cabinet 10.

Step five: if the pick-and-place claw 45 is located directly below the access port 12 at this time, the pick-and-place claw 45 is moved vertically upward from D to E, and the user removes the wine bottle 30 from the access port 12. If the pick-and-place claw 45 is not located directly below the access port 12 at this time, the pick-and-place claw 45 is rotated from the position D to a position directly below the access port 12 and then moved vertically upward to the position E, and the user takes out the wine bottle 30 from the access port 12.

Step six: the picking and placing claw 45 is reset, namely the picking and placing claw 45 returns to the original position so as to be convenient for the next action.

The process of removing the bottles 30 from the refrigerated wine cabinet according to embodiments of the present invention will be readily apparent to those skilled in the art from the foregoing description. However, the process of storing the wine bottles 30 according to the embodiment of the present invention is exactly opposite to the process of removing the wine bottles 30, and the description thereof will not be repeated here.

It should be noted that the process of picking and placing the wine bottles 30 described in the above step three is fixed, and the picking and placing claw 45 must be moved from vertically below the wine bottle holding member 20 to vertically above to pick up the wine bottles 30, and from above the wine bottle holding member 20 to vertically below to store the wine bottles 30. Other steps may be accomplished in other alternative ways. For example, the movement from the original position to the position B can be realized in a rotating, lifting and traversing mode, can also be realized in a lifting, rotating and traversing mode, and can also be realized by lifting and rotating and traversing after simultaneous movement. For another example, in the fifth step, "if the picking and placing claw 45 is not located directly under the access port 12 at this time, the picking and placing claw 45 is rotated from the position D to the position directly under the access port 12 and then vertically moved upward to the position E, and the user may take out the wine bottle 30" from the access port 12, the picking and placing claw 45 may be vertically moved upward from the position D to the position in the same plane as the position E and then rotated to the position E. Those skilled in the art can also program the wine bottle 30 to move simultaneously during the rotation process to increase the efficiency of taking and placing the wine bottle 30.

The wine bottle storing and taking mechanism of the refrigerated wine cabinet is at least a part of members.

Various embodiments of the present invention also provide for specific configurations of the access claw 45 and the corresponding wine bottle retaining member 20, for example, each arcuate panel of the access claw 45 and each arcuate panel of the wine bottle retaining member 20 may be replaced with a post. In some other embodiments of the present invention, a guide ramp may be provided at the upper end of each arcuate baffle to facilitate access to the wine bottles 30.

If the hollow cabinet 10 is relatively tall, the access opening 12 is provided on the top wall, which may be inconvenient for the user, and the access opening 12 of the refrigerated wine cabinet may also be provided on the side wall of the hollow cabinet 10. The fifth step may be: if the pick-and-place claw 45 is at the level of the access port 12 at this time, the pick-and-place claw 45 is rotated to a position aligned with the access port 12, and then the pick-and-place claw 45 is moved laterally to the access port 12, and the user takes out the wine bottle 30 from the access port 12. If the pick-and-place claw 45 is not located on the same horizontal plane of the access port 12 at this time, the pick-and-place claw 45 is vertically moved to be located on the horizontal plane of the access port 12, then the pick-and-place claw 45 is rotated to a position aligned with the access port 12, then the pick-and-place claw 45 is laterally moved to the access port 12, and the user takes out the wine bottle 30 from the access port 12.

In some alternative embodiments of the present invention, the pick-and-place claw 45 may be configured like a robotic arm that is free to pick and place the wine bottle 30 from the wine bottle holding member 20 when moved to a predetermined position.

In other embodiments of the invention, the wine bottle access mechanism may also include a robot capable of curvilinear motion, including a robot arm and a robot arm portion. That is, a mechanism capable of receiving a wine bottle 30 from the access port 12 and moving and storing the wine bottle 30 on the designated wine bottle holding member 20, or taking the wine bottle 30 from the designated wine bottle holding member 20 and delivering it to the access port 12 belongs to the wine bottle access mechanism of the present invention.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described herein in detail, many other variations or modifications of the invention consistent with the principles of the invention may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and deemed to cover all such other variations or modifications.

Claims (8)

1. A refrigerated wine cabinet comprising:

a hollow cabinet body which is internally limited with a wine storage space;

a plurality of wine bottle holding members, wherein at least a portion of the wine bottle holding members are circumferentially secured to an inner member of a circumferential side wall of the hollow cabinet;

the hollow cabinet body is provided with an access port for the wine bottle to pass through; and also

The refrigerated wine cabinet further includes a wine bottle access mechanism configured to receive wine bottles from the access port and store the wine bottles on a designated wine bottle holding member or to remove wine bottles from the designated wine bottle holding member and deliver the wine bottles to the access port;

the wine bottle access mechanism comprises:

a rotary motion mechanism including a rotation shaft extending in a vertical direction;

a lifting mechanism, comprising:

the lifting motion rack is arranged on the rotating shaft along the vertical direction; a lifting movement gear engaged with the lifting movement rack to move on the lifting movement rack; and

a telescoping mechanism, comprising:

a fixed arm extending in a horizontal direction which moves up and down with the elevating movement gear with respect to the elevating movement rack;

a movable arm with a telescopic movement rack and extending along the horizontal direction, wherein a picking and placing claw is fixed at the far end of the movable arm;

the telescopic motion gear is rotatably arranged on the fixed arm and meshed with the telescopic motion rack on the movable arm.

2. The refrigerated wine cabinet of claim 1, wherein

The cross section of the wine storage space is round.

3. The refrigerated wine cabinet of claim 2, wherein

The circumference outer wall of the hollow cabinet body is cylindrical.

4. The refrigerated wine cabinet of claim 1, wherein

The plurality of wine bottle holding members are arranged in a plurality of layers in a vertical direction, and the wine bottle holding members of each layer are fixed on the inner layer member at intervals in a circumferential direction.

5. The refrigerated wine cabinet of claim 4, wherein

The wine bottle holding members of each layer are uniformly arranged along the circumferential direction;

the spacing between two adjacent layers of wine bottle retaining members along the vertical direction is equal.

6. The refrigerated wine cabinet of claim 1, wherein

The wine storage space of the hollow cabinet body is communicated to the outside of the hollow cabinet body only through the access port.

7. The refrigerated wine cabinet of claim 1, wherein

The access port is arranged on the top wall of the hollow cabinet body.

8. The refrigerated wine cabinet of claim 1, wherein

The picking and placing claw comprises a first bottom hurdle and a first side hurdle;

the first bottom hurdle comprises a first straight rod and two second straight rods which are positioned on the same horizontal plane, and each second straight rod is vertically arranged at one end of the first straight rod;

the first side hurdle comprises four arc-shaped baffles which are positioned on the same cylindrical surface and extend along the vertical direction; the axis of each arc baffle is positioned on the central symmetry plane of the picking and placing claw, the distance between each arc baffle and the first straight rod is larger than the radius of the cylindrical surface, and the distance between each arc baffle and each second straight rod is smaller than the radius of the cylindrical surface; two arc baffles are fixed on each second straight rod;

each of the wine bottle retaining members includes a second bottom rail and a second side rail;

each second bottom hurdle comprises a third straight rod, a fourth straight rod and two fifth straight rods which are positioned on the same horizontal plane, the third straight rod of each second bottom hurdle is positioned on the central symmetry plane of the corresponding wine bottle holding member, the fourth straight rod of each second bottom hurdle is perpendicular to the third straight rod on the fourth straight rod, and each fifth straight rod of each second bottom hurdle is perpendicular to one end of the fourth straight rod on which the fourth straight rod of each second bottom hurdle is arranged;

each second side rail comprises four arc-shaped baffles which are positioned on the same cylindrical surface and extend in the vertical direction; the axis of each arc baffle of each second side hurdle is positioned on the central symmetrical plane of the corresponding wine bottle holding member, the distance between the axis of each arc baffle and the fourth straight rod of the corresponding wine bottle holding member is larger than the radius of the cylindrical surface, and the distance between the axis of each arc baffle and the fifth straight rod of the corresponding wine bottle holding member is equal to the radius of the cylindrical surface; two arc baffles are fixed on the third straight rod of each wine bottle holding member, and one arc baffle is fixed on each fifth straight rod of each wine bottle holding member;

the radius of each arc-shaped baffle of the picking and placing claw is equal to that of each arc-shaped baffle of each wine bottle holding member.