SMART DINING BAR

Abstract

A smart dining bar includes a tabletop unit, a refrigerator refrigeration unit, and a control unit. The tabletop unit includes a small table top, and the refrigerator cooling unit includes a foamed door body, a storage rack, a lifting assembly, and a refrigeration chamber. The small table top, foamed door body, and storage rack can be raised or lowered along with the lifting assembly. The foamed door body is detachably mounted to the small table top, and the foamed door body is detachably connected to the lifting assembly. The dining bar is equipped with a refrigeration unit, which not only fulfills the basic function of a dining table but also provides refrigerated and frozen storage. The lifting column racks allows for easy access and maximizes space utilization. The small table top and foamed door body are detachably installed, and the foamed door body is detachably connected to the lifting assembly.

Claims

1. A smart dining bar comprising a table top unit, a refrigerator refrigeration unit and a control unit, wherein the refrigerator refrigeration unit comprises a foamed door body, a cabinet, a lifting assembly, at least one refrigeration chamber, and at least one rack; the lifting assembly comprises a bottom mounting bracket, a top mount, an electric lifting member, the electric lifting member is fixed to the bottom mounting bracket, the bottom mounting bracket is mounted to a bottom of the cabinet, the top mount is detachably connected to the foamed door body, the electric lifting member is located between the bottom mounting bracket and the top mount; the electric lifting member comprises a first lifting column and a second lifting column mounted coaxially, the first lifting column is connected with the top mount, the second lifting column is connected with the cabinet bottom through the bottom mounting bracket, supporting the foamed door body to lift or lower in the axial direction of the first lifting column; the at least one refrigeration chamber is mounted within the cabinet, the rack is placed in the at least one refrigeration chamber, the rack is lifted or lowered with the foamed door body, at least one of the racks is placed on the first lifting column, the racks disposed on the first lifting column are lifting column racks; the table top unit comprises a small table top, the second part of the foamed door body is positioned within the small table top, the small table top is detachably mounted with the foamed door body.

2. The smart dining bar of claim 1, wherein the table top unit further comprises a large table top having a first through hole disposed centrally therein, the small table top is located above and fully covering the first through hole, a first part of the foamed door body is located within the first through hole; the cabinet comprises a table frame and a mounting frame positioned above the table frame; a side of mounting frame remote from table frame is provided with protrusion which is placed within the first through hole and conformed to inner wall of the first through hole.

3. The smart dining bar of claim 2, wherein the foamed door body comprises a foamed body and a foamed block, the foamed body comprising a second through hole, the foamed block is mounted in the second through hole, second screw holes are provided on the top mount in one-to-one correspondence with the second through holes, the foamed body and the lifting assembly are connected by a first screw, the first screw is located in the second through hole.

4. The smart dining bar of claim 2, wherein attachment screws are secured in the foamed door body, the attachment screws extend out of bottom surface of the foamed door body, threads are disposed in the top mount to mate with the attachment screws, and the foamed door body is secured to the lifting assembly via the attachment screws.

5. The smart dining bar of claim 1, wherein the first lifting column is provided with at least one stationary block adjacent to a side of the lifting column rack, each of the stationary block is provided with a third screw hole, fourth screw hole is provided on the lifting column rack in one-to-one correspondence with the third screw hole, and the lifting column rack is in fixed connection with the first lifting column by a second screw.

6. The smart dining bar of claim 5, wherein two or more racks are provided, each of the other racks except the lifting column racks comprising a support column and a pallet, the support column is connected with the foamed door body by third screws and the pallet is mounted on the support column by fourth screws; the number of refrigerating chambers is two or more, the at least one refrigeration chamber including a refrigerating compartment and a freezing compartment, the refrigerating compartment is provided with a third through hole close to a side wall of the freezing compartment; a bottom of the freezing compartment is provided with a drain outlet, the drain outlet is connected with a drain pipe, the drain pipe communicating with an inner wall of the refrigerating compartment through the third through hole; a fifth screw is provided on the tray of the rack located in the same refrigeration chamber as the lifting column rack, the pallet is fixedly connected to the lifting column rack via the fifth screw.

7. The smart dining bar of claim 5, wherein a pulley is fixed to inner wall of refrigeration chamber, the rack is provided with slide rail sized and positioned to match the pulley, and the slide rail is provided on axially matching the first lifting column.

8. The smart dining bar of claim 7, wherein the pulley is ball transfer unit and the slide rail is arcuate groove matching the ball transfer unit, and the arcuate groove is extended in axial direction of the first lifting column.

9. The smart dining bar of claim 1, wherein the lifting column rack comprises rotation column and tray, the rotation column is arranged coaxially with the first lifting column, fourth through hole is provided on the rotation column, and the tray is provided with snap, which cooperates with the fourth through hole to secure tray on the rotation column.

10. The smart dining bar of claim 1, wherein the control unit comprises a controller module mounted on the smart dining bar, the controller module is provided with a number of keys; the control unit further comprises a vibration sensing module; the vibration sensing module is disposed within the foamed door body, the vibration sensing module is electrically coupled to a control structure of the lift assembly.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0034] FIG. 1 is a front view of a first embodiment of the smart dining bar of the present application.

[0035] FIG. 2 is a schematic diagram illustrating operational status of a first embodiment of the smart dining bar 1 in accordance with the present application.

[0036] FIG. 3 is an exploded view of a first embodiment of the smart dining bar of the present application from a first perspective.

[0037] FIG. 4 is a schematic diagram illustrating a foamed door body of a first embodiment of the smart dining bar in accordance with the present application.

[0038] FIG. 5 is an exploded view of a first embodiment of the smart dining bar of the present application from a second perspective.

[0039] FIG. 6 is a schematic diagram illustrating a mounting frame of a first embodiment of the smart dining bar of the present application.

[0040] FIG. 7 is a schematic diagram illustrating the structure of a first embodiment of the small table top and the rack of the smart dining bar of the present application.

[0041] FIG. 8 is an exploded view of the lifting assembly of the first embodiment of the smart dining bar of the present application.

[0042] FIG. 9 is a top plan view of the interior structure of the cabinet of the first embodiment of the smart dining bar in accordance with the present application, removing the table top, the rack and the lifting assembly.

[0043] FIG. 10 is cross-sectional view of orientation of FIG. 9B-B.

[0044] FIG. 11 is a front view of a second embodiment of the smart dining bar of the present application.

[0045] FIG. 12 is a schematic diagram illustrating a usage state of a second embodiment of the smart dining bar in accordance with the present application.

[0046] FIG. 13 is a exploded view of a second embodiment of the smart dining bar of the present application.

[0047] FIG. 14 is an exploded view of a second embodiment of the small table top and rack of the smart dining bar of the present application.

[0048] FIG. 15 is a schematic diagram illustrating a rotation column of a second embodiment of the smart dining bar in accordance with the present application.

[0049] FIG. 16 is a structural diagram illustrating the structure of the tray of the second embodiment of the smart dining bar in accordance with the present application.

[0050] FIG. 17 is an exploded view of the lifting assembly of the second embodiment of the smart dining bar in accordance with the present application.

[0051] FIG. 18 is an exploded view of the inner structure of the cabinet and the bottom closure panel of the second embodiment of the smart dining bar in accordance with the present application.

[0052] FIG. 19 is an exploded view of the third embodiment of the smart dining bar of the present application.

[0053] FIG. 20 is enlarged partial view at A in FIG. 19.

[0054] FIG. 21 is a schematic diagram illustrating a fourth embodiment of the smart dining bar of the present application.

[0055] FIG. 22 is a schematic diagram illustrating a fifth embodiment of the smart dining bar of the present application.

[0056] FIG. 23 is a schematic diagram illustrating a sixth embodiment of the smart dining bar of the present application.

[0057] FIG. 24 is a schematic diagram illustrating a seventh embodiment of the smart dining bar of the present application.

[0058] FIG. 25 is a schematic diagram illustrating an eighth embodiment of the smart dining bar of the present application.

[0059] FIG. 26 is a schematic diagram illustrating a ninth embodiment of the smart dining bar of the present application.

[0060] FIG. 27 is a schematic diagram illustrating a tenth embodiment of the smart dining bar of the present application.

[0061] FIG. 28 is a schematic diagram illustrating an eleventh embodiment of the smart dining bar of the present application.

[0062] FIG. 29 is a structural diagram illustrating a twelfth embodiment of the smart dining bar of the present application.

[0063] FIG. 30 is a structural diagram illustrating a thirteenth embodiment of the smart dining bar of the present application.

[0064] The present application will be described further below with reference to the accompanying drawings and examples.

DETAILED DESCRIPTION OF THE EMBODIMENTS

First Embodiment

[0065] The present embodiment provides smart dining bar including table top unit, refrigerator refrigeration unit, and control unit.

[0066] Referring to FIGS. 1 to 6, a refrigerator refrigeration unit includes a foamed door body 21, a cabinet 22, a rack 23, a refrigeration chamber, a lifting assembly 26, a refrigeration system, an electrical control system, and two table feet 27. The table top unit includes a large table top 11 and a small table top 12.

[0067] A first through hole 111 is provided at the center of the large table 11, the small table top 12 is located above and completely covers the first through hole 111. The first part 216 of the foamed door body 21 is located within the first through hole 111, the second part 217 of the foamed door body 21 is located within the small table top 12. The small table top 12 comprises a table glass 121 and a frame 122 located all around, the second part 217 of the foamed door body 21 is placed inside the frame 122 of the small table top 12, the length of the first part 216 of the foam door body 21 is smaller than the length of the second part 217 of the foamed door body 21, the small tabletop 12 is detachably mounted with the foamed door body 21. The foamed door body 21 comprises a foamed body 212 provided with a second through hole 211 and a foamed block 213 mounted inside the second through hole 211, which is also provided with first screws 214 for connecting the foamed door body 21 with the lifting assembly 26.

[0068] Connected below foamed door body 21 is rack 23 and lifting assembly 26. There is gap of more than 8 mm between small table top 12 and large table top 11. The gap can be used to mount sealing bars and light strips, while gap can act as cushion in event of user mishandling, avoiding user pinching.

[0069] The cabinet 22 includes a table frame 221 and a mounting frame 223. The mounting frame 223 is located above the table frame 221. Referring to FIGS. 6, a side of the mounting frame 223 remote from the table frame 221 is provided with a protrusion 2231, the protrusion is placed inside the first through hole 111, and a sidewall of the protrusion 2231 fits into an inner wall of the first through hole 111, realizing a large table top 11 over the mounting frame 223, fixing the large table top 11, to prevent the large table top 11 from moving back and forth left and right move. In addition to this, suction cups 2232 are provided on the four corners of the mounting frame 223 to further secure the large table top 11. First ventilation holes 222 are provided on the table frame 221 to facilitate heat dissipation inside the cabinet 22. A refrigerator foam layer (not shown) is provided inside the table frame 221 to act as heat insulation and reduce the transfer of heat and energy saving.

[0070] Both table feet 27 have inverted shape with good support for whole dinging bar.

[0071] The control unit includes controller module 31 mounted below large table top 11. A number of keys are provided on controller module 31 for implementing various functions of smart dining bar.

[0072] Referring to FIG. 7, the rack 23 comprises a lifting column rack 231, a refrigerated rack 232, a frozen rack 233, wherein a fourth screw hole 2312 is provided on the lifting column rack 231, the fourth screw hole 2312 is for fixed connection with the lifting assembly. The lifting column rack 231 is provided with a storage chamber, a flap is provided on the storage chamber, for storing some items that need to be stored separately. Pulleys 2311 are also secured below the lifting column rack 231, cooperating with a slide rail within the refrigeration chamber, the refrigerated rack 232 comprises a first support column 2321, the first support column 2321 is detachably connected to the foamed door body 21 via third screws. Three layers of first pallet 2322 are mounted on the first support column 2321. The pallets 2322 are fixedly connected to the lifting column rack 231 with fifth screws. The number of first support column 2321 is one, mounted to a side of the first pallet 2322 remote from the lifting column rack 231, the first support column 2321 and the first pallet 2322 are secured by fourth screws. To further improve the stability of the rack 23 for lifting and lowering, a slide rail is provided on the side of the first support column 2321 remote from the first pallet 2322, mate with pulleys within the refrigerated refrigeration chamber, the rack 23 is raised and lowered more stably. The frozen rack 233 includes a second support column 2331, the second support column 2331 is detachably coupled to the foamed door body 21 via sixth screws. The second support column 2331 is an inverted U-shape with two second pallets 2332 mounted on the second support column 2331. The second support column 2331 is fixedly coupled to the second pallets 2332 via fourth screws. One of the second pallets 2332 can be provided with ice boxes to meet multiple customer needs.

[0073] The bottom surface of the frame 123 of the small table top 12 is embedded with light strips 122. Sealing bars 215 are also provided between the foamed door body 21 and the mounting frame 223. Sealing bars 215 ensure sealing properties of the refrigeration unit, the ambient light strips 122 are capable of suppling a dining atmosphere, a vibration sensing module (not shown) is provided in the foamed door body 21, the vibration sensing module is electrically connected to the control structure of the lifting assembly so that the user can control the raising or lowering of the door body by knocking on the table top, more conveniently and without the need to operate the control unit, the small table top can be raised or lowered from any seating position at the dining bar. A disinfectant module is also provided in the ring of the sealing bar 215 below the foamed door body 21.

[0074] Referring to FIG. 8, the lifting assembly 26 of the present embodiment smart food bar includes a bottom mounting bracket 262, a top mount 261, an electric lifting member. A first lifting column 263, a second lifting column 264, a third lifting column 266, and a lifting motor 265. The bottom mounting bracket 262 is mounted to the bottom of the refrigerated refrigeration chamber, a fifth screw hole 2621 is provided on the bottom mounting bracket 262 for securing with the refrigerated refrigeration chamber. A second screw hole 2611 is provided on the top mount 261, the second screw hole 2611 corresponds one-to-one with the second through hole 211, connecting the lifting assembly with the foamed door body 21 by means of first screws 214, the foamed door body 21 is in turn removably mounted to the small table top 12 so that the small table top 12 can be lifted as the first lifting column 263 is lifted. The electric lifting member comprises a first lifting column 263, a second lifting column 264, a third lifting column 266 and a lifting motor 265. The first lifting column 263 is fixedly connected to the top mount 261. The first lifting column 263 is fixedly connected to the top mount 261. The first lifting column 263 is provided with a stationary block 2631 on the side near the lifting column rack 231, a third screw hole 2632 is provided on the stationary block 2631. The third screw hole 2632 corresponds to the fourth screw hole 2312, the lifting column rack 231 is fixedly connected with the lifting assembly 26 by screws, the first lifting column 2631 can be raised. The second lifting column 264 is fixedly connected to the lifting motor 265, which is fixed to the bottom mounting bracket 262. The third lifting column 265 is located between the first 263 and second 264, which allows for a longer range of height adjustable lifting and better overall stability and avoids the occurrence of oil leakage due to sealing issues.

[0075] Referring to FIGS. 9 to 10, the refrigeration system of the present embodiment smart dining bar comprises a compressor 25, the electrical control system comprises a wiring board, the refrigeration chamber includes a freezing compartment 241 and a refrigerating compartment 242. The freezing compartment 241 and the refrigerating compartment 242 are provided inside the cabinet 22. The compressor 25 is mounted below the freezing compartment 241. The wiring board is provided inside the cabinet 22. The refrigerating compartment 242 is provided with a slide rail (not shown) matching the pulley 2311 and a pulley matching the first support column 2321, prevent shaking during ascent or retrieval of the table top, a sixth screw hole 2422 is provided on the bottom surface of the refrigerating compartment 242, the position of the sixth screw hole 2422 corresponds to the position of the fifth screw hole 2621, fixing of the refrigerating compartment 242 with the lifting assembly 26 is achieved. A second drain outlet 2423 is also provided on the bottom surface of the refrigerating compartment 242. A first drain outlet 2411 is provided on the bottom of the freezing compartment 242, a drain pipe 2412 is connected to the first drain outlet 2411, the other end of the drain pipe 2412 communicates with the inside of the refrigerating compartment 242 through a third through hole 2421 located in a side wall of the refrigerating compartment 242. The freezing compartment 241 communicates with the drain pipe 2412, instead of directly draining the frosted water out of the bar, the drain pipe 2412 communicates with the inner wall of the refrigerating compartment 242, avoiding a rapid return of hot air outside the cabinet, also reusing the frosted water of the freezing compartment 241 to refrigerate the refrigerating compartment again, with an energy efficient effect, and the frosted water is eventually removed out of the cabinet 22 through the second drain outlet 2423 of the refrigerating compartment 242.

[0076] When the embodiment smart dining bar small table top 12 is not raised, the frozen rack 233 is positioned within the freezing compartment 241, lifting column racks 231 and refrigerated racks 232 are located in a refrigerating compartment 242. The user can raise or lower the small table top 12 by operating the controller module 31 or tapping the small table top 12, at the same time, the rack 23 is raised or lowered. Foods can be accessed without standing, bending over, etc., convenient access, strong stowage, replacement of table and refrigerator at the same time, efficient space and expense saving. In this embodiment, the smart dining bar also has a light strip baking eating atmosphere to meet multiple needs of the user.

[0077] In addition to this, in case of power outages and failures in the present embodiment, the present smart dining bar, the small table top 12 can be detached and then the foamed block 213 in the second through hole 211 of the foamed body 212 can be removed, the first screw 214 can be unscrewed and the screws holding the refrigerated rack 232 and the frozen rack 233 can be unscrewed and the foamed door body 21 can be removed to achieve access to items inside and maintenance with higher utility and better user experience.

[0078] During transport, large table top 11 of smart dining bar of present embodiment can be removed for easy transport, and when installed again, first through hole 111 of large table top 11 fits outside protrusion 2311 of mounting frame 223, further enhancing securing effect by suction cup 2232, facilitating and robust installation.

Second Embodiment

[0079] The present embodiment provides smart dining bar including table top unit, refrigerator refrigeration unit, and control unit.

[0080] Referring to FIGS. 11-14, a refrigerator refrigeration unit includes a foamed door body 56, a cabinet 53, a rack 83, a refrigeration chamber 82, a lifting assembly 63, a refrigeration system, a electrical control system, and five table feet 55. A table top unit includes a large table top 51 and a small table top 52.

[0081] A first through hole 511 is provided at the center of the large table 51, the small table top 52 is located above and completely covers the first through hole 511. A first part of the foamed door body 56 is located within the first through hole 511, the second part of the foamed door body 56 is located within the small table top 52. The small table top 52 comprises table glass and a frame located all around, the second part of the foamed door body 56 is placed inside the frame of the small table top 52, the first part of the foamed door body 56 has a length smaller than the length of the second part of the foamed door body 56, the small table top 52 is detachably mounted with the foamed door body 56. Connection screws 521 are fixed inside the foamed door body 56, which extend out of the bottom surface of the foamed door body 56 for connection with the lifting assembly 63.

[0082] Connected below foamed door body 56 is rack 83 and lifting assembly 63. There is gap more than 8 mm between small table top 52 and large table top 51. The gap can be used to mount light strip while gap can act as cushion against user mishandling, avoiding user pinching.

[0083] A first ventilation hole 531 is provided on cabinet 53 to facilitate heat dissipation inside cabinet 53. A refrigerator foam layer is provided inside cabinet 53 to act as heat insulation, reduce transfer of cold heat, and to save energy. A refrigeration chamber 82 is installed inside cabinet 53, and water drain 821 is connected below refrigeration chamber 82.

[0084] The control unit includes controller module 71 mounted below large table top 51. Several units and several keys are provided on controller module 71 for implementing various functions of smart dining bar.

[0085] Referring to FIGS. 14-16, rack 83 includes rotation column 831 and tray 832. A fourth through hole 8311 is provided on rotation column 831 and clip 8321 is provided on tray 832. The clip 8321 fits with second through hole 8311 to secure tray on rotation post. Tray 832 fits with rotation column 831 to allow tray to be removed and cleaned.

[0086] Lights strip 523 and sound speakers 522 are provided on the bottom surface of the frame of small table top 52, sound speaker 522 can play soothing background music, the light strip 523 stoves the eating atmosphere. A vibration sensing module (not shown) is provided within the foamed door body 56, the vibration sensing module is in electrical communication with the control structure of the lifting assembly 26 so that the user can control the raising or lowering of the door body by knocking on the table top, so that the raising and lowering of the small table top can be achieved by any position of the table sitting more conveniently and without the need to operate the controller.

[0087] Referring to FIG. 17, the lifting assembly of the present embodiment smart bar comprises a bottom mounting bracket 61, a top mount 62 and an electric lifting member. The bottom mounting bracket 61 is fixedly mounted within the cabinet 53. The top mount 62 is provided with internal threads 621 matching the connection screws 521, connecting the lifting assembly 26 with the foamed door body 56, the foamed door body 56 is in turn removably mounted with the small table top 52, the small table top 52 can be raised as the first lifting column 631 is raised. The electric lifting member comprises a first lifting column 631, a second lifting column 632 and a lifting motor 633. The first lifting column 631 is fixedly connected with the top mount 62. The first lifting column 631 is provided with a slide 6311, the rotation column 831 is connected coaxially with the first lifting column 631 and is raised as the first lifting column 831 is raised, and the rotation column 831 is slightly larger in diameter than the first lifting column 631, the rotation column 831 is free to rotate by the slide 6311, the rack 83 is rotated, and it is more convenient for a user to pick up items while sitting at the table. The second lifting column 632 is fixedly connected to the lifting motor 633, which is fixed to the bottom mounting bracket 61.

[0088] Referring to FIG. 18, the present embodiment smart dining bar further comprises a bottom cover plate 54, the bottom cover plate 54 is mounted at the bottom of the cabinet 53, the cabinet 53 is circumferentially provided with ventilation hole 531. The refrigeration system of the present embodiment smart dining bar comprises a compressor 81, the compressor 81 is mounted inside the cabinet 53 and is located under the bottom cover plate 54, and a mounting base 811 is also provided under the compressor 81 for fixing the compressor 81. The compressor 81 is mounted below the bottom cover plate 54 to facilitate heat dissipation. The electrical control system of this embodiment smart dining bar includes a frozen circuit design 72 and a lift circuit design 73, both of the frozen circuit design 72 and the lift circuit design 73 installed in the cabinet 53.

[0089] When the small table top of the present embodiment smart dining bar is not raised, the rack 83 is located within the refrigeration chamber 82. The user can raise or lower the small table top 52 by operating the controller module 71 or tapping the small table top 52, the rack 83 is also raised or lowered. The rack 83 is a rotatable rack, and it is more convenient for a user to access food items without standing, bending, or the like, while the user is sitting in any position to reach items. The smart dining bar also has light straps and audio speakers to eat and meet multiple needs of the user.

[0090] In addition to this, embodiment smart food bar may disassemble small table top 52 and then rotate foamed door body 56 to separate foamed door body 56 from lifting assembly 26 in event of power outages and malfunctions, resulting in higher utility and better user experience with access to internal items and maintenance.

Third Embodiment

[0091] The smart dining bar provided by present embodiment includes table top unit, refrigerator refrigeration unit, and control unit.

[0092] Referring to FIGS. 19 and 20, table top unit includes a large table top c11 and a small table top c12. The refrigerator refrigeration unit includes foamed a door body, a cabinet c22, a lifting assembly c21, a refrigerated rack c232, a frozen rack c231, a refrigerating compartment c261, a freezing compartment c262, a refrigeration system, a electrical control system, and two table feet c24.

[0093] The structure of the smart dining bar of this embodiment differs from the first embodiment mainly in that in this embodiment the refrigerated rack c232 is a lifting column rack, the lifting assembly c21 passes through and connects with the refrigerated rack c232. In addition to that, in this embodiment, a pulley provided on the inner wall of the refrigerating chamber c261 is a ball transfer unit c251, arcuate grooves c252 matching ball transfer unit c251 are provided on their respective refrigerated rack c232 and frozen rack c231, the arcuate groove c252 is arcuate in cross-section, the arcuate groove c252 extends in the axial direction of the first lifting column. Other structures of the smart dining bar of this embodiment are the same as in the first embodiment. This embodiment employs ball transfer unit c251, this design can improve the effect and flexibility of sliding, making pulley movement smoother. ball transfer unit c251 has the advantage of load bearing, is able to support heavier objects It also has wear resistant properties and can still maintain good performance over long periods of use. And the ball transfer unit c251 produce less noise during sliding and are silent to provide a more restful use environment suitable for home use. The refrigerated rack c232 acts as a lifting column rack, resulting in reduced manufacturing costs for smart food bars.

Fourth Embodiment

[0094] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0095] Referring to FIG. 21, present implementation provides smart dining bar comprising a large table top 901, a small table top 902, a cabinet 903, and a table foot 905. The other structure of this embodiment is same as second embodiment, with main difference from second embodiment is that this embodiment includes only one table foot 905, which is cylinder and has diameter greater than diameter of the cabinet 903.

Fifth Embodiment

[0096] The present implementation provides smart dining bar comprising table top unit, refrigerator refrigeration unit, and control unit. Referring to FIG. 22, present implementation provides smart dining bar comprising a large table top 911, a small table top 912, a cabinet 913. The other structures of present embodiment are same as third embodiment, with main difference from third embodiment is that present embodiment is not provided with table feet.

Sixth Embodiment

[0097] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0098] Referring to FIG. 23, this embodiment provides smart dining bar comprising a large table top 921, a small table top 922, a cabinet 923, and a table foot 925. The other features of this embodiment are identical to first embodiment, with main differences from first embodiment is that large table top 921, the small table top 922, the cabinet 923, and the table foot 925 are each arranged in race track type, and number of table foot 925 is one, and upper surface area of table foot 925 is larger than bottom area of the cabinet 923.

Seventh Embodiment

[0099] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0100] Referring to FIG. 24, present implementation provides smart dining bar comprising a large table top 931, a small table top 932, and a cabinet 933. The other structure of this embodiment is same as fifth embodiment, with main difference from fifth embodiment is that this embodiment does not have table foot.

Eighth Embodiment

[0101] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0102] Referring to FIG. 25, present implementation provides smart dining bar comprising a large table top 941, a small table top 942, a cabinet 943, and table feet 945. Other configurations of present implementation are same as in first embodiment, with main difference from first embodiment is that only one of table feet 945 of present embodiment is in shape of trapezoid, upper surface of trapezoid is same size as bottom surface of the cabinet 943.

Ninth Embodiment

[0103] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0104] Referring to FIG. 26, present implementation provides smart dining bar comprising a large table top 951, a small table top 952, a cabinet 953, and table feet 955. The other structures of this embodiment are same as third embodiment, with main difference from third embodiment is that large and small table top 951, 952 of this embodiment are cuboid in shape.

Tenth Embodiment

[0105] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0106] Referring to FIG. 27, present implementation provides smart dining bar comprising a large table top 961, a small table top 962, a cabinet 963, and table feet 965. The other structure of present embodiment is same as third embodiment, with primary difference from third embodiment is that top area of the cabinet 963 of present embodiment is larger than bottom area of the cabinet 963.

Eleventh Embodiment

[0107] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0108] Referring to FIG. 28, present implementation provides smart dining bar comprising a large table 971, a small table 972, and a cabinet 973. The other structure of present embodiment is same as fourth embodiment, with main difference from fourth embodiment is that the cabinet 973 of present embodiment is circular table-shaped.

Twelfth Embodiment

[0109] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0110] Referring to FIG. 29, present implementation provides smart dining bar comprising a large table top 981, a small table top 982, a cabinet 983, and bottom 985. The other structure of present embodiment is same as fifth embodiment, with primary difference from fifth embodiment is that top area of the cabinet 973 of present embodiment is larger than bottom area of the cabinet 973.

Thirteenth Embodiment

[0111] The smart dining bar provided by present implementation includes table top unit, refrigerator refrigeration unit, and control unit.

[0112] Referring to FIG. 30, present implementation provides smart dining bar comprising a large table top 991, a small table top 992, a cabinet 993, and a foot 995. The other structures of this embodiment are identical to fifth embodiment, with main difference from fifth embodiment is that large and small table top 951, 952 of this embodiment are cuboid in shape.

[0113] The above embodiments are merely preferred examples of the present application and do not limit the scope of the present application, and accordingly, equivalent changes or modifications made in accordance with the structure, features, and principles of the claimed application are intended to be included within the application scope of the present application.