Performance: Riding Comfort And Smoothness

Off-road cycling’s first choice is Mountain electric bicycles (e-MTB) which are usually equipped with a higher frame design. This design not only provides a longer distance between seat and ground, allowing the vehicle to ride on rugged mountain trails as if it were flat ground, but also ensures unimpeded off-road riding.

Low-frame urban electric bicycles adopt a lower frame design, which greatly facilitates riders to get on and off. This is a great advantage for riding on flat city roads, especially for commuters who frequently stop and wait for traffic lights.

Diversified Choices

Convenience of Urban Commuting: For urban commuters, the low frame design is undoubtedly a blessing. Frequent getting on and off the bike becomes easy and comfortable, especially for women wearing skirts and the elderly, the low frame design brings greater convenience and safety.

A Reliable Partner: for long-distance travel users, the higher frame provides better structural durability and riding stability, ensuring comfort during long rides.

Balance and Protection

The strong protection of a high frame: The high frame not only improves the strength of the overall structure, but also provides more effective protection in the event of a collision. When making sharp turns or unexpected collisions, the high frame can better disperse and absorb impact energy to ensure the safety of the rider.

The stability advantage of a low frame: The low frame design helps to lower the center of gravity and reduce the risk of rollover, which is especially suitable for urban riding. The low center of gravity design makes the vehicle more stable when making sharp turns and avoiding obstacles, thereby improving riding safety.

Materials and Economy

Technical Challenges of High Frames: High frames require more materials and more complex production processes, so the cost is relatively high. However, the performance and safety advantages of this design also make it worthwhile.

Economic Affordability of Low Frames: Low frames are relatively simple in design, require less materials, and have lower production costs. This makes low-frame electric bicycles easier to mass-produce and promote, becoming the first choice for many consumers.

Technical Breakthroughs of High Frames: Manufacturing high frames requires ensuring their strength and durability while controlling weight, which places higher demands on production technology. The use of advanced welding technology and lightweight materials is the key to achieving high-performance high frames.

The simplicity and efficiency of low frames: The production technology of low frames is relatively simple, but its strength and rigidity still need to be guaranteed. With the advancement of science and technology, the application of lightweight materials and advanced production processes has enabled low frames to further reduce weight while maintaining strength.

The design of the electric bicycle frames’ height is a field full of wisdom and challenges. It not only needs to find a balance between performance, user needs and safety, but also consider the feasibility of cost and production technology. With the continuous advancement of material science and manufacturing technology, the future design of electric bicycle frame height will be more diversified and intelligent, bringing users higher safety, comfort and riding efficiency.

Unique Features of Romer

Among many electric bicycle designs, JOBOBIKE Romer's frame design stands out. Its main features include:

Integrated Aluminum Alloy Frame

Romer's frame adopts an integrated aluminum alloy design, which is light and strong. Aluminum alloy not only has excellent corrosion resistance, but also reduces the weight of the whole vehicle while maintaining strength, making riding easier.

Streamlined Design

Romer's frame has smooth lines and a modern aesthetic design. Not only does it enhance the visual effect of the whole vehicle, but it also performs well in aerodynamics, reduces wind resistance, and improves riding efficiency.

Low Frame Design

In order to facilitate riders to get on and off the bike, especially in urban riding, Romer adopts a lower frame design. This design is especially friendly to female riders and the elderly, making riding more convenient and safer.

High-strength Welding Process

Romer uses advanced high-strength welding technology during the manufacturing process to ensure that every connection point of the frame is strong and durable. Whether it is daily commuting or long-distance travel, Romer can provide a reliable riding experience.

Doube-layer Frame Design of The Downtube

Romer's downtube adopts a double-layer design, which is also the battery tube part, providing additional space and protection for the battery, helping to better fix and protect the battery and reduce damage to the battery caused by external impact or vibration.