A vehicle-mounted refrigerator with a bottle holder
By designing a bottle support in the vehicle refrigerator, including the support body, the support plate and suction cup, the problem of bottles being easily broken during vehicle bumps is solved, achieving stable bottle fixation and efficient space utilization.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU RUIYAN ELECTRONICS TECH CO LTD
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-23
Smart Images

Figure CN224398092U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of vehicle refrigerator technology, specifically to a vehicle refrigerator with a bottle holder. Background Technology
[0002] Currently, car refrigerators are becoming increasingly common in daily life, especially in summer when food easily spoils and changes flavor after a certain period. Therefore, as an extension of household refrigerators, car refrigerators have emerged, providing convenience for home travel, camping, and work by cooling and preserving food inside the vehicle. However, current car refrigerators lack bottle holders, making it easy for glass bottles and beverage containers placed inside to break during vehicle movement, causing inconvenience. Utility Model Content
[0003] To solve the above-mentioned technical problems, this utility model provides a car refrigerator with a bottle holder, which can fix the bottle, is easy to use, avoids bottle breakage, and occupies little space.
[0004] Specifically, this utility model discloses a car refrigerator with a bottle holder, comprising:
[0005] The main body of the refrigerator consists of an outer shell, an inner liner, and a top cover;
[0006] Refrigeration components are used to cool and heat refrigerators;
[0007] A bottle support assembly includes a support body, the support body having a support plate and a positioning plate, the support plate being connected to the support body, and the positioning plate being flip-mountable and having positioning holes for limiting the bottle.
[0008] The advantages of adopting the above technical solution are that it enables vehicle-mounted refrigerators to both cool and heat, while also having a bottle support assembly to ensure that bottled items are not damaged during vehicle operation, thus meeting a variety of usage needs.
[0009] Furthermore, the main body of the bracket is provided with a bottom frame and side support rods. The bottom frame has multiple suction cups, and the side support rods are connected to the bottom frame. The side support rods are provided with suction cups facing the inner liner sidewall.
[0010] The advantage of adopting the above technical solution is that the suction cup plays a fixing role, and the entire bracket can be moved to a different position. This design makes it convenient to move the bracket according to the needs of use and meet various applicable requirements.
[0011] Furthermore, the bottom frame is provided with multiple guide posts, which pass through the support plate and are provided with vibration damping springs between themselves and the support plate.
[0012] The advantages of adopting the above technical solution are that the guide post plays a guiding role, and the spring plays a vibration damping role. During the bumpy process of the vehicle, the spring provides vibration damping support for the load-bearing plate, effectively preventing the bottle from breaking due to collision.
[0013] Furthermore, a horizontal plate is fixed to the side support rod, and the horizontal plate is provided with a plurality of positioning grooves for avoiding the positioning plate, and limit holes are provided on both sides of the positioning grooves.
[0014] The advantage of adopting the above technical solution is that multiple positioning plates are set to fix the bottle body, which can effectively avoid bottle collision. The structure is simple and multiple bottles can be placed at one time to meet the needs of use.
[0015] Furthermore, the positioning plate is provided with positioning posts on both sides that extend into the limiting holes, and the positioning plate flips upward along the positioning posts to have two position states: horizontal and vertical.
[0016] The advantage of adopting the above technical solution is that the positioning plate has two states. When not in use, the positioning plate can be flipped upward to make it vertical, which will not occupy the internal space of the refrigerator. When in use, the positioning plate can be flipped to a horizontal state, and the bottle can be placed in the positioning plate to fix the bottle.
[0017] Furthermore, the upper cover is hinged to the outer shell and is provided with a sealing ring that contacts the outer shell.
[0018] The advantages of adopting the above technical solution are that the flip-up top cover is easy to open and close, and the sealing ring increases the sealing performance, resulting in good heat preservation inside the refrigerator.
[0019] Furthermore, a partition plate is provided inside the inner liner, and a vertically arranged strip-shaped protrusion is provided on the side wall of the inner liner. The two ends of the partition plate are limited by the strip-shaped protrusion.
[0020] The advantage of adopting the above technical solution is that the partition makes it easy to divide the storage space inside the inner liner, allowing the refrigerator to hold more, while also making it convenient to take out and classify items.
[0021] Furthermore, an elastic buffer ring is provided on the side wall of the positioning hole.
[0022] The advantage of adopting the above technical solution is that the buffer ring has a buffering effect, and at the same time, because the buffer ring has a certain elasticity, it plays a limiting role and also has a fixed buffering effect on bottles of different diameters.
[0023] Furthermore, the cooling assembly includes: a semiconductor cooling element, a cooling pipe, a radiator, and a cooling fan. The semiconductor cooling element is disposed inside the inner liner and is connected to the radiator via the cooling pipe. The cooling fan is mounted on the side of the radiator, and the radiator and the cooling fan are disposed inside the outer shell.
[0024] The advantage of adopting the above technical solution is that by setting a semiconductor cooling component for internal cooling and heating of the refrigerator, the refrigerator structure becomes compact, while having a good cooling and heating effect. At the same time, the setting of the radiator and cooling fan ensures its heat dissipation function.
[0025] Furthermore, a flow-guiding fan is provided on the side of the semiconductor cooling device.
[0026] The advantage of adopting the above technical solution is that the airflow fan plays a role in heat conduction, increases the airflow inside the refrigerator, and makes the internal temperature of the refrigerator drop rapidly. Attached Figure Description
[0027] To more clearly illustrate the technical solutions in the embodiments of this utility model, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0028] Figure 1 This is a top view of the vehicle-mounted refrigerator with a bottle support according to this utility model.
[0029] Figure 2 This is an isometric drawing of a vehicle-mounted refrigerator with a bottle support according to this utility model.
[0030] Figure 3 This is an overall drawing of the vehicle-mounted refrigerator with bottle support according to this utility model.
[0031] Figure 4 This utility model is an isometric bottle support assembly. Figure 1
[0032] Figure 5 This utility model is an isometric bottle support assembly. Figure 2
[0033] Figure 6 This is a schematic diagram of the structure of the refrigeration component of this utility model.
[0034] The reference numerals used in the attached figures are as follows:
[0035] 1. Outer shell; 2. Inner liner; 21. Divider plate; 22. Strip protrusion; 3. Top cover; 4. Cooling component; 41. Semiconductor cooling component; 42. Cooling pipe; 43. Radiator; 44. Cooling fan; 45. Guide fan; 5. Support body; 5. Bottom frame; 51. Side support rod; 52. Suction cup; 53. Guide post; 54. Vibration damping spring; 55. Bearing plate; 6. Positioning plate; 7. Positioning post; 71. Positioning hole; 72. Elastic buffer ring; 73. Horizontal plate; 8. Positioning groove; 81. Detailed Implementation
[0036] The present invention will now be described in further detail with reference to the accompanying drawings.
[0037] like Figure 1-3 As shown, this utility model discloses a car refrigerator with a bottle holder, comprising:
[0038] The main body of the refrigerator has an outer shell 1, an inner liner 2, and a top cover 3;
[0039] Refrigeration component 4 is used for cooling and heating the refrigerator;
[0040] The bottle support assembly includes a support body 5, the support body 5 having a support plate 6 and a positioning plate 7, the support plate 6 being connected to the support body 5, and the positioning plate 7 being flip-mountable and having a positioning hole 72 for limiting the bottle.
[0041] The advantages of adopting the above technical solution are that it enables vehicle-mounted refrigerators to both cool and heat, while also having a bottle support assembly to ensure that bottled items are not damaged during vehicle operation, thus meeting a variety of usage needs.
[0042] The bracket body 5 includes a bottom frame 51 and side support rods 52. The bottom frame 51 has multiple suction cups 53, which are fixedly installed at the bottom of the bottom frame 51 and arranged in a pattern of 3 to 5. The side support rods 52 are fixedly connected to the bottom frame 51 and have suction cups 53 facing the side wall of the inner liner 2. The side support rods 52 are vertically arranged, and the suction cups 53 are vertically arranged on their outer side, with a quantity of 3 to 5. The suction cups 53 are ordinary suction cups made of rubber or silicone, which are low in cost. When you want to change the position, you can apply an outward force to the bracket body 5 to separate the suction cups 53 from the inner liner 2. The suction cups 53 of the bottom frame 51 are attached to the bottom of the inner liner 2, while the suction cups of the side support rods 52 can be attached to any position on the side wall. This arrangement facilitates position changes, allowing you to move the bracket according to your needs and meet various applicable requirements.
[0043] Furthermore, such as Figure 4-5As shown, the bottom frame 51 is provided with multiple guide posts 54. The guide posts 54 pass through the support plate 6 and are provided with shock-absorbing springs 55 between them and the support plate 6. The bottom of the guide posts 54 is installed at the four corners of the bottom frame 51. The support plate 6 can slide up and down along the guide posts 54. Springs are provided on the guide posts 54 on the upper and lower sides of the support plate 6 to keep the support plate 6 in a floating state, reduce bumps, and avoid damage to the bottle.
[0044] The guide post 54 serves as a guide, and the damping spring serves as a damping spring. During vehicle bumps, the spring provides damping support for the load-bearing plate 6, effectively preventing the bottle from colliding and breaking.
[0045] Furthermore, a horizontal plate 8 is fixed to the side support rod 52. The horizontal plate 8 is horizontally fixed on the side support rod 52. The horizontal plate 8 is provided with multiple positioning grooves 81 for avoiding the positioning plate 7. Limiting holes are provided on both sides of the positioning grooves 81. The bottom of the positioning grooves 81 is flat. Positioning posts 71 extending into the limiting holes are provided on both sides of the positioning plate 7. When the positioning plate 7 is turned into a horizontal state, the bottom flat of the positioning groove 81 supports the positioning plate 7, keeping the positioning plate 7 in a horizontal state. The positioning posts 71 can be telescopic positioning posts 71 for easy installation. The positioning plate 7 flips upward along the positioning posts 71, having two positions: horizontal and vertical. A protrusion is provided on the upper side of the limiting hole. When the positioning plate 7 flips upward, the protrusion acts as a blocking point to prevent the positioning plate 7 from flipping downward without external force. The number of positioning plates 7 is 3 to 5. The positioning holes 72 of each positioning plate 7 are of different diameters, which can accommodate multiple bottles of different diameters to meet usage needs. Multiple positioning plates 7 are used to fix the bottle body, which can effectively prevent the bottle body from colliding. The structure is simple and can hold multiple bottles at one time to meet the needs of use.
[0046] The positioning plate 7 has two states. When not in use, the positioning plate 7 is flipped upward to make it vertical, which will not occupy the internal space of the refrigerator. When in use, the positioning plate 7 is flipped to a horizontal state, and the bottle can be placed in the positioning plate to fix the bottle.
[0047] In some implementations, the top cover 3 is hinged to the outer shell 1 and is provided with a sealing ring that contacts the outer shell 1. Insulation material is filled between the outer shell 1 and the inner liner 2 to ensure the temperature inside the refrigerator. The outer shell 1 is provided with a display panel that can display the temperature inside the refrigerator.
[0048] Furthermore, such as Figure 2As shown, the inner liner 2 is provided with a partition plate 21 inside, and the side wall of the inner liner 2 is provided with a vertically arranged strip protrusion 22. The two ends of the partition plate 21 are limited by the strip protrusion 22. The strip protrusion 22 is integrally formed with the side wall of the inner liner 2. The partition plate 21 has multiple hollow holes, which reduces the weight while ensuring the strength of the partition plate 21 and facilitates the division of the internal space.
[0049] Furthermore, the side wall of the positioning hole 72 is provided with an elastic buffer ring 73. The elastic buffer ring 73 is made of foam or rubber and can be fixed by adhesive. Since foam can be compressed and has a certain thickness, the elastic buffer ring 73 has a buffering effect. At the same time, since the elastic buffer ring 73 has a certain elasticity, it plays a limiting role and also has a fixing and buffering effect on bottles of different diameters.
[0050] In some implementation schemes, such as Figure 6 As shown, the cooling assembly 4 includes: a semiconductor cooling element 41, a cooling pipe 42, a radiator 43, and a cooling fan 44. The semiconductor cooling element 41 is located inside the inner liner 2 and is connected to the radiator 43 through the cooling pipe 42. The cooling fan 44 is installed on the side of the radiator 43. The radiator 43 and the cooling fan 44 are located inside the outer shell 1. The outer shell 1 is provided with multiple vents for heat dissipation. The radiator 43 is a computer radiator. The computer radiator and the cooling fan 44 are arranged alternately. The computer radiator and the semiconductor cooling element 41 are connected through the cooling pipe 42. The cooling pipe 42 is a cooling copper pipe, which plays a good role in heat transfer.
[0051] The advantage of adopting the above technical solution is that the semiconductor cooling component 41 is set to cool and heat the inside of the refrigerator, making the refrigerator structure compact and having a good cooling and heating effect. At the same time, the setting of the radiator 43 and the cooling fan 44 ensures its heat dissipation function.
[0052] Furthermore, a guide fan 45 is provided on the side of the semiconductor cooling component 41. The guide fan 45 is fixedly installed on the side of the semiconductor cooling component 41 and blows air towards the inside of the refrigerator to accelerate the internal air circulation.
[0053] The advantage of adopting the above technical solution is that the airflow fan 45 plays a role in heat conduction, increases the airflow inside the refrigerator, and makes the internal temperature of the refrigerator drop rapidly.
[0054] For those skilled in the art, various modifications and improvements can be made without departing from the inventive concept of this utility model, and these all fall within the protection scope of this utility model.
Claims
1. A vehicle-mounted refrigerator with a bottle holder, characterized in that, include: The refrigerator body has an outer shell (1), an inner liner (2) and a top cover (3); Refrigeration component (4) is used for cooling and heating the refrigerator; The bottle support assembly includes a support body (5), the support body (5) having a support plate (6) and a positioning plate (7), the support plate (6) being connected to the support body, and the positioning plate (7) being flip-mountable and having a positioning hole (72) for limiting the bottle body.
2. The vehicle-mounted refrigerator with a bottle holder according to claim 1, characterized in that, The main body of the bracket (5) is provided with a bottom frame (51) and a side support rod (52). The bottom frame (51) has multiple suction cups (53). The side support rod (52) is connected to the bottom frame (51). The side support rod (52) is provided with suction cups (53) facing the side wall of the inner liner (2).
3. The vehicle-mounted refrigerator with a bottle holder according to claim 2, characterized in that, The bottom frame (51) is provided with a plurality of guide posts (54), which pass through the support plate (6) and are provided with damping springs (55) between them.
4. The vehicle-mounted refrigerator with a bottle holder according to claim 2, characterized in that, The side support rod (52) is fixed with a horizontal plate (8), and the horizontal plate (8) is provided with a plurality of positioning grooves (81) for avoiding the positioning plate (7), and the positioning grooves (81) are provided with limit holes on both sides.
5. The vehicle-mounted refrigerator with a bottle holder according to claim 4, characterized in that, The positioning plate (7) is provided with positioning posts (71) extending into the limiting holes on both sides. The positioning plate (7) flips upward along the positioning posts (71) and has two position states: horizontal and vertical.
6. The vehicle-mounted refrigerator with a bottle holder according to claim 1, characterized in that, The upper cover (3) is hinged to the outer shell (1) and is provided with a sealing ring that contacts the outer shell (1).
7. The vehicle-mounted refrigerator with a bottle holder according to claim 1, characterized in that, The inner liner (2) is provided with a partition plate (21), and the side wall of the inner liner (2) is provided with a vertically arranged strip protrusion (22). The two ends of the partition plate (21) are limited by the strip protrusion (22).
8. The vehicle refrigerator with a bottle holder according to claim 1, characterized in that, An elastic buffer ring (73) is provided on the side wall of the positioning hole (72).
9. The vehicle-mounted refrigerator with a bottle holder according to claim 1, characterized in that, The cooling assembly (4) includes: a semiconductor cooling element (41), a cooling pipe (42), a radiator (43), and a cooling fan (44). The semiconductor cooling element (41) is disposed inside the inner liner (2) and is connected to the radiator (43) through the cooling pipe (42). The cooling fan (44) is installed on the side of the radiator (43). The radiator (43) and the cooling fan (44) are disposed inside the outer shell (1).
10. The vehicle refrigerator with a bottle holder according to claim 9, characterized in that, A flow guide fan (45) is provided on the side of the semiconductor cooling component (41).