An electric delivery box
By designing electric delivery boxes, the problems of physical exertion and extended delivery time caused by the ban on electric vehicles in residential areas have been solved, resulting in efficient delivery and improved customer satisfaction.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO BABI INTELLIGENT TECHNOLOGY CO LTD
- Filing Date
- 2025-08-14
- Publication Date
- 2026-07-03
AI Technical Summary
The increased physical exertion and longer delivery times caused by the ban on electric vehicles in residential areas have negatively impacted customer satisfaction.
Design an electric delivery box with an electric body structure, equipped with a drive component and a rideable design, combined with multiple independent compartments and insulation function to adapt to different delivery scenarios and enhance portability and efficiency.
Electric delivery boxes reduce physical exertion, increase delivery speed, ensure food temperature, and improve customer satisfaction and delivery efficiency.
Smart Images

Figure CN224448026U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a takeaway box, and more particularly to an electric takeaway box. Background Technology
[0002] In today's society, with the development of the food delivery industry, more and more customers rely on convenient food delivery services. However, many residential communities do not allow electric vehicles to enter due to security or management reasons, which brings great inconvenience to delivery drivers. The prohibition of electric vehicles in residential areas means that delivery drivers need to park their vehicles at a distance and must carry the food or backpack on foot to complete the journey within the community. When dealing with multiple orders in large and scattered communities, this is physically demanding for delivery drivers and easily leads to late deliveries. This not only increases the workload of delivery drivers but also prolongs delivery time, resulting in decreased customer satisfaction. Therefore, how to complete food delivery conveniently and efficiently without violating community management regulations is an urgent problem to be solved. Summary of the Invention
[0003] The technical problem to be solved by this utility model is to provide an electric food delivery box that is compact in structure, small in size, easy to carry, and can efficiently complete food delivery.
[0004] This utility model provides an electric delivery box, which includes:
[0005] The takeaway box body 1 has a cavity formed inside to form a placement cavity for placing takeaway food. The side walls and / or top of the placement cavity can be opened to allow takeaway food to be placed and taken out. The top surface of the takeaway box body 1 serves as a bearing surface and can be sat on.
[0006] The drive assembly 2 includes a front wheel 23 and a rear wheel 22 disposed at the lower end of the takeaway box body 1. The front wheel 23 and / or the rear wheel 22 are connected to a motor and serve as power wheels. A handlebar is installed at the front end of the takeaway box body 1. The handlebar is connected to the front wheel 23 and can drive the front wheel 23 to rotate, thereby achieving steering. The handlebar is provided with a control component for controlling the forward or backward movement of the power wheel.
[0007] This application describes an electric delivery box with an electric body structure. Users can sit on the box and control its movement via the handlebars, easily navigating residential areas, reducing physical exertion, and enabling efficient delivery in areas where electric vehicles are prohibited. This significantly improves delivery speed and ensures customer satisfaction.
[0008] Furthermore, the placement cavity is provided with a partition 12 and divides the placement cavity into at least two sub-chambers. The side walls or top surfaces of the sub-chambers can be opened to allow for the retrieval and placement of takeout orders. The multiple sub-chamber structure facilitates the classification and storage of different orders, improves retrieval and placement efficiency, and reduces the occurrence of mis-taken items.
[0009] Furthermore, the side wall of the takeaway box 1 is provided with a heat insulation layer to keep the food warm, which enables the entire takeaway box to have a heat preservation function, ensuring that the food is kept at a suitable temperature during delivery, especially in hot summer or cold winter, effectively guaranteeing the taste and quality of the food, and further enhancing the customer's dining experience.
[0010] Furthermore, the partition is horizontally arranged to form multiple vertically arranged sub-chambers. This vertical arrangement is reasonable, improves space utilization, facilitates the storage of more takeout orders, reduces the number of deliveries, and improves overall delivery efficiency.
[0011] Furthermore, the partition is an insulated partition made of insulating material, which provides thermal insulation between adjacent sub-chambers, preventing the temperature of food from affecting each other, especially preventing hot and cold food from affecting each other, and maintaining their optimal state.
[0012] Furthermore, the sub-chamber includes a cold food area for placing cold meals and a hot food area for placing hot meals. It is partitioned with clear hot and cold food separation, so as to keep the cold and hot foods warm respectively, meet the delivery needs of different foods, and improve service quality.
[0013] Furthermore, the takeaway box body 1 is provided with a shoulder strap 14 and / or a handle 15. Preferably, both the shoulder strap 14 and the handle 15 are provided, so that it can be carried by hand or on the shoulder, flexibly adapting to different delivery scenarios, enhancing portability and improving work efficiency.
[0014] Furthermore, the takeaway box body 1 is equipped with a support frame. The support frame structure can improve the load-bearing capacity of the takeaway box, prevent the box body from deforming, and ensure the stability of the box body during delivery.
[0015] Furthermore, the lower end of the takeaway box body 1 is provided with a frame 21, and the front wheel 23, the rear wheel 22 and the handlebars are mounted on the frame 21.
[0016] Furthermore, the motor is a hub motor, which has a compact structure and small installation volume.
[0017] Furthermore, the handlebar is located inside the takeaway box body 1 and extends upward through the top surface of the takeaway box body 1. The height of the handlebar is adjustable, and the top surface of the takeaway box body 1 is provided with a receiving groove 130 for accommodating the handle 25 on the handlebar. This allows the handlebar to be hidden, so that it is not exposed when delivering by shoulder carrying, avoiding scratches, ensuring a safe and smooth delivery process, and improving the compactness and aesthetics of the overall structure.
[0018] Furthermore, the takeaway box body 1 is provided with a handlebar trim panel 4. The handlebar trim panel 4 and the front inner wall of the takeaway box body 1 form a handlebar receiving area, and the handlebar is located in the handlebar receiving area. The handlebar is located in the receiving area, which avoids the handlebar being exposed outside the takeaway box body 1. On the one hand, it can improve the aesthetics. At the same time, the design of the handlebar trim panel 4 can also effectively protect the handlebar and prevent it from being damaged during transportation, such as when takeaway food is spilled and contaminates the handlebar. This ensures that the handlebar is always kept clean, extends its service life, and further improves the overall durability and reliability of the delivery tool.
[0019] Furthermore, the handlebar includes a telescopic rod assembly rotatably mounted on the front end of the frame 21 and a handlebar 25 disposed on the top of the rod assembly. The lower end of the rod assembly is provided with a front fork 233, which is connected to the knuckle 231 on the front wheel 23 via a connecting rod 232 and can drive the two front wheels to rotate synchronously. During driving, the steering is stable, the steering angle is large, the steering radius is small, it is not easy to tip over, the driving stability is high, and the delivery safety is improved.
[0020] Furthermore, the vehicle frame is equipped with a battery and a control module, and the control module is electrically connected to the battery and control components.
[0021] Furthermore, the rod assembly includes an outer rod 241 rotatably mounted on the frame 21 and an inner rod 242 sleeved within the outer rod 241 and capable of axial sliding. The outer rod 241 is provided with a quick-locking mechanism 26 for locking the inner rod 242 and achieving fixation. The handle 25 is mounted on the top of the inner rod 242. Both the inner rod 242 and the outer rod 241 are tubular bodies that can accommodate cables from control components. The handle height can be adjusted according to different usage needs, and the adjustment is convenient and effortless. At the same time, the wires are hidden inside the tubular body to avoid exposure, improving the overall aesthetics and safety. It can also prevent the wires from being damaged due to friction or other reasons during delivery, ensuring circuit stability, extending service life, and improving delivery efficiency.
[0022] This utility model features an electric delivery box with an electric body structure, allowing riders to sit on the box and control its movement via handlebars, easily navigating residential areas and reducing physical exertion. It enables efficient delivery in areas where electric vehicles are prohibited, significantly improving delivery speed and ensuring customer satisfaction. The box is divided into multiple sub-chambers, forming independent zones for easy categorization and storage of different orders, improving retrieval efficiency. An insulated structure separates cold and hot food zones, clearly defining the hot and cold food zones to maintain their respective temperatures, meeting the delivery needs of different foods and improving service quality. Shoulder straps and handles allow for hand-carrying or shoulder-carrying, flexibly adapting to different delivery scenarios, enhancing portability and improving work efficiency. A supporting frame structure increases the box's load-bearing capacity, preventing deformation and ensuring stability during delivery. It also reduces weight, making it easier to carry and less burdensome for delivery personnel, improving comfort. This utility model electric delivery box is compact, aesthetically pleasing, improves delivery efficiency, reduces the labor intensity of delivery personnel, and provides a good user experience. Attached Figure Description
[0023] Figure 1 This is a structural schematic diagram of the electric takeout box of this utility model;
[0024] Figure 2 This is a schematic diagram of the electric takeaway box of this utility model from another angle;
[0025] Figure 3 This is a cross-sectional view of the electric delivery box of this utility model;
[0026] Figure 4 This is another planar sectional view of the electric takeaway box of this utility model;
[0027] Figure 5 This is a schematic diagram of the supporting frame of the electric takeaway box of this utility model;
[0028] Figure 6 This is a schematic diagram of the frame structure of the electric delivery box of this utility model;
[0029] Figure 7 This is a partial enlarged view of the electric delivery box of this utility model.
[0030] In the diagram: 1. Takeout box body; 11. Bottom plate; 12. Partition; 13. Top plate; 130. Receiving slot.
[0031] 14. Shoulder strap, 15. Handle, 2. Drive assembly, 21. Frame, 22. Rear wheel, 23. Front wheel, 231. Steering knuckle, 232. Linkage, 233. Front fork, 241. Outer rod, 242. Inner rod, 25. Handlebar, 26. Quick-lock mechanism, 31. Crossbar, 32. Connector, 33. Vertical rod, 34. Longitudinal rod, 4. Handlebar trim. Detailed Implementation
[0032] The embodiments of this utility model will now be described in detail with reference to the accompanying drawings.
[0033] See Figures 1-7 This utility model provides an electric takeaway box, which includes a takeaway box body 1 and a drive assembly.
[0034] The takeaway box body 1 serves as the main body, used to hold takeaway food and as a riding platform. The takeaway box body 1 has a rectangular structure with a hollow interior, forming a cavity inside the takeaway box body 1. The cavity is used to hold takeaway food. The side walls of the cavity can be opened, or the top of the cavity can be opened, or both the side walls and the top of the cavity can be opened simultaneously, thus enabling the takeaway food to be picked up and put down. The top surface of the takeaway box body 1 serves as a load-bearing surface, capable of supporting the weight of a person and allowing for riding.
[0035] The drive assembly 2 includes a front wheel 23 and a rear wheel 22, both of which are located at the lower end of the takeaway box body 1. The front wheel 23 is located at the front of the lower end of the takeaway box body 1, and the rear wheel 22 is located at the rear of the lower end of the takeaway box body 1. There are two rear wheels 22 and one or two front wheels 23, preferably two, which can improve the stability of riding, especially during turning. At least one of the front wheel 23 and the rear wheel 22 is connected to the motor and serves as the drive wheel. That is, the front wheel 23 can serve as the drive wheel, the rear wheel can serve as the drive wheel, or both the front wheel 23 and the rear wheel 22 can serve as the drive wheel. In this embodiment, the rear wheel 22 serves as the drive wheel. The motor is a hub motor, which has a compact structure, small installation volume, and can reduce the overall volume. A handlebar is installed at the front of the delivery box body 1. The handlebar is connected to the front wheel 23 and can drive the front wheel 23 to rotate, thereby achieving steering. A control component is provided on the handlebar to control the forward or backward movement of the drive wheel. At the same time, a battery and control module are provided. The battery provides energy as a power source, and the control module precisely regulates the operation of the motor to ensure stable driving. The control module is electrically connected to the battery and control component to form a control system to achieve electric operation. A brake and positioning module are also provided for braking and positioning, respectively, to facilitate finding and prevent loss.
[0036] This application describes an electric delivery box with an electric body structure. Users can sit on the box and control its movement via the handlebars, easily navigating residential areas, reducing physical exertion, and enabling efficient delivery in areas where electric vehicles are prohibited. This significantly improves delivery speed and ensures customer satisfaction.
[0037] To optimize the internal layout of the delivery box 1, a partition 12 is installed inside the placement cavity, dividing it into at least two sub-cavities to form independent zones. The side walls or top surfaces of these sub-cavities can be opened to allow for the retrieval and placement of food. This application's multiple sub-cavity structure, forming multiple independent zones, increases the effective internal capacity and facilitates the categorization and storage of different orders, improving retrieval efficiency and reducing the risk of misplacement. A heat insulation layer is installed on the side walls of the delivery box 1, effectively isolating heat from the inside and outside of the box to maintain its temperature. This ensures the food remains at a suitable temperature during delivery, especially in hot summers or cold winters, preserving its taste and quality. Quality is effectively guaranteed, further enhancing the customer's dining experience. In this embodiment, the partition 12 is horizontally arranged, forming multiple vertically arranged sub-chambers. This vertical arrangement is reasonable, improving space utilization, facilitating the storage of more takeout orders, reducing delivery frequency, and improving overall delivery efficiency. The top of the sub-chamber can be opened, or its side wall can be opened, while the side wall of the lower sub-chamber can be opened. To avoid mutual interference between sub-chambers, the partition 12 is an insulated partition with an insulated structure, providing thermal insulation between adjacent sub-chambers and preventing temperature interference between foods, especially hot and cold foods, maintaining their optimal state. The aforementioned sub-chambers include a cold food area for placing cold meals (such as cold drinks) and a hot food area for placing hot meals. The partitioned arrangement clearly separates hot and cold food, achieving individual temperature insulation for hot and cold foods, meeting the delivery needs of different foods, and improving service quality.
[0038] In this embodiment, the entire takeaway box 1 is made of thermal insulation material.
[0039] In this application, a supporting frame is provided inside the takeaway box body 1. This supporting frame structure improves the load-bearing capacity of the takeaway box, prevents deformation, and ensures the box's stability during delivery. Specifically, the supporting frame is constructed by splicing multiple support rods; see reference [link to relevant documentation]. Figure 5 The support rod includes a horizontally arranged horizontal bar 31, a vertical bar 34, and a vertically arranged vertical bar 33. The horizontal bar 31, the vertical bar 34, and the vertical bar 33 are perpendicular to each other and are connected by a connector 32. The connector 32 has a hole for inserting the ends of the horizontal bar 31, the vertical bar 34, and the vertical bar 33 to form a stable frame structure. The above-mentioned support frame is a cuboid frame structure.
[0040] In this application, due to the inclusion of a supporting frame structure, the delivery box can be made of flexible materials, maintaining its shape through the internal support structure. This reduces manufacturing costs and overall weight, making it easier for delivery personnel to carry. The top of the box is made of rigid material to support the delivery person; the bottom plate is also made of rigid material, securely connected to the vehicle frame. Doors are located on the side walls of the delivery box; when made of flexible material, the doors open and close conveniently and effortlessly via zippers.
[0041] To accommodate different delivery scenarios, such as cycling, hand-carrying, or shoulder-carrying, this application provides a shoulder strap 14 and / or a handle 15 on the takeaway box body 1. Preferably, both the shoulder strap 14 and the handle 15 are provided, allowing for hand-carrying or shoulder-carrying, flexibly adapting to different delivery scenarios, enhancing portability, and improving work efficiency.
[0042] A frame 21 is provided at the lower end of the takeaway box body 1. Specifically, a base plate 11 is provided at the bottom of the takeaway box body 1. The base plate 11 is set on the frame 21. At the same time, the front wheel 23, the rear wheel 22 and the handlebars are installed on the frame 21, and the battery and control module are also set on the frame 21.
[0043] The frame 21 includes a front frame 211 and a rear frame 212, which are connected by a frame body. The frame body has a mounting cavity for installing the battery and control module. The front wheel 23 is mounted on the front frame 211 and the rear wheel 22 is mounted on the rear frame 212. The overall width of the frame 21 is less than or equal to the width of the delivery box body 1, so that it will not affect the delivery person's mobility when carried by hand, especially on the shoulder, and avoids the outward protrusion from affecting comfort.
[0044] The handlebars are located inside the delivery box body 1, extending upwards through the top surface of the delivery box body 1. The height of the handlebars is adjustable. A top plate 13 is provided on the top of the delivery box body 1, with reinforcing ribs on the lower surface of the top plate 13 to improve structural strength and load-bearing capacity. A receiving groove 130 is provided on the top surface of the top plate 13 to accommodate the handlebar 25, enabling the handlebars to be concealed. During shoulder-carrying delivery, the handlebars are not exposed, preventing scratches and ensuring a safe and smooth delivery process, while also improving the overall structural compactness and aesthetics. Specifically, the handlebars include a pole assembly and a handlebar 25. The pole assembly is rotatably mounted on the front end of the frame 21. It is telescopic, with handle 25 set at the top of the pole assembly, forming a T-shaped structure. The lower end of the pole assembly extends to the lower end of the frame 21. A front fork 233 is provided at the lower end of the pole assembly. There are two front wheels 23, which are respectively mounted on the frame 21 via steering knuckles 231. A connecting rod 232 is hinged between the front fork 233 and the steering knuckles 231. When the pole assembly rotates, it can drive the front fork 233 to rotate. At the same time, the connecting rod drives the two steering knuckles 231 to rotate synchronously, realizing the steering function of the front wheels. This ensures stable steering during driving, with a large steering angle, a small steering radius, and is not easy to roll over. It has high driving stability and improves delivery safety.
[0045] The rod assembly includes an outer rod 241 and an inner rod 242. The outer rod 241 is rotatably mounted on the frame 21, and the inner rod 242 is fitted inside the outer rod 241 and can slide axially. A quick-locking mechanism 26 is provided on the outer rod 241 to lock the inner rod 242, thereby securing the inner rod. A handle 25 is installed on the top of the inner rod 242. Both the inner rod 242 and the outer rod 241 are hollow tubular structures, allowing cables from control components to pass through. The handlebar height can be adjusted according to different usage needs, and the adjustment is convenient and effortless. Furthermore, the wires are hidden inside the tubular structure, avoiding exposure, improving overall aesthetics and safety, and preventing damage to the wires during delivery due to friction or other reasons, ensuring circuit stability, extending service life, and improving delivery efficiency.
[0046] To improve aesthetics and protect the handlebar assembly, this application includes a handlebar trim panel 4 inside the takeout box body 1. The handlebar trim panel 4 and the front inner wall of the takeout box body 1 form a handlebar receiving area, with the handlebar located within this area. This design prevents the handlebar from being exposed inside the takeout box body 1, improving both aesthetics and the overall durability and reliability of the delivery tool.
[0047] This utility model features an electric delivery box with an electric body structure, allowing riders to sit on the box and control its movement via handlebars, easily navigating residential areas and reducing physical exertion. It enables efficient delivery in areas where electric vehicles are prohibited, significantly improving delivery speed and ensuring customer satisfaction. The box is divided into multiple sub-compartments, creating independent zones for easy categorization and storage of different orders, improving retrieval efficiency. An insulated design separates cold and hot food zones, ensuring proper temperature control for both types of food and enhancing service quality. Shoulder straps and handles allow for hand-carrying or shoulder-carrying, flexibly adapting to different delivery scenarios, enhancing portability and improving work efficiency. A supporting frame structure increases the box's load-bearing capacity, preventing deformation and ensuring stability during delivery. It also reduces weight, making it easier to carry and less burdensome for delivery personnel, improving comfort. This utility model electric delivery box is compact, aesthetically pleasing, improves delivery efficiency, reduces the workload of delivery personnel, and provides a good user experience.
[0048] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.
Claims
1. An electric take-out box, characterized by, include: The takeaway box body has a cavity formed inside to form a placement cavity for placing takeaway food. The side walls and / or top of the placement cavity can be opened to allow takeaway food to be placed and taken out. The top surface of the takeaway box body serves as a bearing surface and can be sat on. The drive assembly includes a front wheel and a rear wheel located at the lower end of the takeaway box body. The front wheel and / or the rear wheel are connected to a motor and serve as power wheels. A handlebar is installed at the front end of the takeaway box body. The handlebar is connected to the front wheel and can drive the front wheel to rotate, thereby achieving steering. The handlebar is provided with a control component for controlling the forward or backward movement of the power wheel.
2. The electric take-out box of claim 1, wherein: The placement cavity is equipped with a partition that divides the placement cavity into at least two sub-chambers. The side walls or top surfaces of the sub-chambers can be opened to allow for the retrieval and placement of takeout food.
3. The electric delivery box according to claim 2, wherein: The side walls of the takeaway box are equipped with a heat insulation layer to keep the contents warm, and the partitions are heat-insulating partitions.
4. The electric delivery box according to claim 2, wherein: The partition is horizontally arranged to form multiple vertically arranged sub-chambers.
5. The electric delivery box according to claim 1, wherein: The takeaway box is equipped with a shoulder strap and / or a handle.
6. The electric delivery box according to claim 1, wherein: The takeaway box has a supporting frame inside.
7. The electric delivery box according to claim 1, wherein: The lower end of the delivery box is equipped with a frame, and the front wheel, rear wheel and handlebars are mounted on the frame.
8. The electric delivery box according to claim 1, wherein: The handlebars are located inside the takeout box and extend upward through the top surface of the takeout box. The height of the handlebars is adjustable, and a receiving groove for accommodating the handlebars is provided on the top surface of the takeout box.
9. The electric delivery box according to claim 7, wherein: The handlebars include a telescopic rod assembly rotatably mounted on the front end of the frame and a handle on top of the rod assembly. The lower end of the rod assembly is provided with a front fork, which is connected to the knuckles on the front wheel via a connecting rod and can drive the two front wheels to rotate synchronously.
10. The electric delivery box according to claim 9, wherein: The rod assembly includes an outer rod rotatably mounted on the frame and an inner rod sleeved within the outer rod and capable of axial sliding. The outer rod is provided with a quick-locking mechanism for locking the inner rod and achieving fixation. The handle is mounted on the top of the inner rod, and both the inner rod and the outer rod are tubular and can accommodate cables from control components.