Print Miboh 1 is a regular weight, normal width, low contrast, upright, short x-height font.
Keywords: kids branding, packaging, posters, social graphics, craft labels, playful, friendly, casual, youthful, approachable, handmade feel, approachability, informal clarity, friendly tone, rounded, marker-like, monoline, bouncy, irregular.
A casual hand-drawn print with rounded, monoline strokes and softly blunted terminals, as if made with a felt-tip marker. Letterforms are upright but intentionally irregular, with slight wobble in stems, uneven curves, and subtly shifting proportions from glyph to glyph that create a lively rhythm. Counters are open and generous, curves are broad (notably in C/O/S), and joins remain simple and unadorned, emphasizing clarity over precision. Overall spacing reads relaxed, and the set maintains consistent stroke thickness while allowing informal shape variation.
This style suits kid-focused projects, playful branding, packaging, and upbeat posters where an approachable handwritten voice is desired. It also works well for social media graphics, invitations, classroom materials, and casual labeling where legibility and personality need to coexist.
The font conveys a lighthearted, conversational tone—warm, informal, and a bit whimsical. Its bouncy irregularity feels human and spontaneous, lending an easygoing personality that suggests friendliness rather than formality or authority.
The design appears intended to capture the look of quick, neat hand lettering—more like printed handwriting than connected script—balancing readability with a distinctly human, drawn character. Its consistent stroke weight and rounded forms aim for an inviting feel while keeping the overall word shapes clear in longer lines of text.
The uppercase has a simple, drawn-by-hand construction that pairs naturally with the lowercase, and numerals follow the same casual, rounded logic. The texture stays clean and readable at display sizes while preserving a hand-made charm through small inconsistencies in stroke direction and curve tension.