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Sholes and Glidden typewriter

The Sholes and Glidden typewriter was the first commercially successful mechanical writing machine, principally designed by American inventor Christopher Latham Sholes in collaboration with Carlos Glidden and Samuel W. Soule.^[1]^[2] Patented on June 23, 1868, as an improvement in type-writing machines (U.S. Patent No. 79,265), it featured a keyboard with keys striking typebars upward against an ink ribbon and platen to produce impressions on paper.^[3]^[4] Production commenced in 1873 under license to E. Remington & Sons, a firearms and sewing machine manufacturer seeking diversification, with the machine marketed as the Sholes & Glidden Type-Writer and initially priced at $125.^[5] Its QWERTY keyboard arrangement, devised by Sholes to reduce mechanical jamming by separating common letter pairs, became the enduring standard for subsequent typewriters and keyboards.^[6] Capable of printing only uppercase letters at speeds exceeding handwriting, the device enabled more efficient correspondence and record-keeping, spurring widespread office adoption and the typewriter industry's growth by the late 19th century.^[7]

Invention and Early Development

Inventors and Initial Prototypes

Christopher Latham Sholes, a Milwaukee-based printer, journalist, and politician, led the development of the first practical typewriter in collaboration with Samuel W. Soule, a printer, and Carlos Glidden, a lawyer and inventor.^[8] Sholes and Soule initially constructed a page-numbering device at Kleinsteuber's machine shop in Milwaukee, which they patented on November 13, 1866.^[8] ^[9] In 1867, Glidden showed Sholes an article in Scientific American describing the Pterotype, a shorthand-writing machine invented by John Pratt, prompting Sholes to adapt the concept for alphabetic printing.^[8] ^[9] The trio's first typewriter prototype, completed that year, featured a piano-like keyboard with two rows of keys: an upper row of ivory keys for numerals 3 through 9 and letters N through Z, and a lower row of ebony keys for numerals 2, 4, 6, and 8, the period, and letters A through M, omitting digits 0 and 1 in favor of the letters O and I.^[8] Constructed with a wooden framework, the device measured approximately 5.5 by 12.25 by 12.125 inches, incorporated brass and wood components, and used a telegraph-style key mechanism to mark paper via carbon impressions.^[9] ^[8] Sholes, Glidden, and Soule filed a patent application for an "Improvement in Type-Writing Machines" in October 1867, which was granted as U.S. Patent 79,265 on June 23, 1868.^[10] This early model resembled a hybrid of a piano and a kitchen table, with keys striking to imprint characters, though it suffered from mechanical limitations such as slow operation and frequent jamming.^[8] Subsequent prototypes refined the design, transitioning from initial disk-based or direct-strike mechanisms toward individual typebars arranged in a semi-circular basket, addressing alignment and speed issues over iterative testing from 1868 to 1873.^[8] These efforts laid the groundwork for the commercially viable Sholes and Glidden model, though the initial versions printed only uppercase letters and a limited character set.^[9]

Patent Acquisition and Key Milestones

Christopher Latham Sholes, Carlos Glidden, and Samuel W. Soule filed a patent application for an improved type-writing machine in October 1867, which was granted as U.S. Patent No. 79,265 on June 23, 1868.^[10]^[3] The patent described a mechanism using pivoting typebars striking a common impression point above a keyboard arranged in piano-like fashion, marking a shift from earlier indexing devices to direct character printing.^[3] Following the 1868 grant, the inventors pursued commercialization through partnerships, including with promoter James Densmore, but initial manufacturing attempts by small firms like the Milwaukee company failed due to mechanical unreliability and high production costs.^[5] In early 1873, E. Remington and Sons, a firearms manufacturer seeking diversification, acquired the patent rights from Sholes and associates for $12,000 after demonstrations proved the machine's viability.^[5]^[11] Key milestones included Sholes' subsequent refinements, leading to an improved patent (U.S. No. 207,559) granted on September 3, 1878, which addressed shift mechanisms for uppercase characters and enhanced durability.^[12] This evolution under Remington's production enabled the first commercial units to reach the market in 1874, establishing the Sholes and Glidden model as the inaugural mass-produced typewriter.^[5] Following the initial 1867 prototype, Sholes and his collaborators undertook extensive iterative refinements over approximately five to seven years, producing around thirty improvements across various models to enhance reliability and usability.^[7] These efforts transformed a rudimentary device into the first commercially viable typewriter, with key mechanical adjustments focusing on the typebar linkage and carriage escapement borrowed and adapted from existing printing mechanisms.^[13] A primary challenge was the frequent jamming of typebars, where mechanical arms collided during rapid successive strikes, particularly under alphabetical key arrangements that positioned common letter pairs adjacently.^[7] To mitigate jamming, Sholes rearranged the keyboard into what became the QWERTY layout by 1872, deliberately separating frequently used letter pairs—such as those derived from English digram frequency analyses—to minimize arm interference and allow faster typing without mechanical lockup.^[13] ^[14] This non-alphabetical configuration, while counterintuitive for users accustomed to sequential letter order, prioritized causal mechanical stability over mnemonic simplicity, reflecting first-principles optimization for the device's physical constraints.^[15] Despite these advances, type alignment remained imperfect due to inconsistencies in typebar swing arcs converging on a central impression point, prompting further redesigns by Sholes and mechanic Rudolf Schwalbach to better synchronize strikes on the platen. Additional hurdles included the machine's upstrike design, which positioned typebars beneath the platen and rendered typed text invisible during operation, complicating error correction and requiring post-print verification. The device operated solely in uppercase, as dual-case functionality would have doubled keys or complicated shifting mechanisms beyond the era's precision machining limits.^[16] Overall typing speed was constrained to roughly half that of handwriting, attributable to the lever-action keys and wire linkages that demanded deliberate force to avoid misalignment or fatigue-induced errors.^[13] These persistent limitations, unresolvable without fundamental redesigns, underscored the trade-offs in balancing simplicity, durability, and performance in early mechanical printing devices.

Technical Design and Features

Keyboard Layout and Typebar Mechanism

The Sholes and Glidden typewriter employed a keyboard consisting of four ascending rows of keys arranged in the QWERTY layout, marking the first commercial implementation of this configuration.^[17] This layout, finalized by Christopher Latham Sholes in 1873, positioned the letters Q, W, E, R, T, and Y along the top row, with subsequent rows following a pattern designed to separate common letter pairs—such as those in frequent English digraphs like "th" or "he"—to reduce the likelihood of adjacent typebars colliding during rapid operation.^[6] The keys themselves were metal levers topped with buttons, set in semi-circular banks to align with the operator's fingers, facilitating access while minimizing reach for most characters.^[17] The typebar mechanism utilized a lever-action system where each key depression transmitted force through a wire linkage from the keyboard to a pivoted typebar suspended in a curved basket or segmental ring encircling the platen.^[17] These typebars, each bearing raised uppercase typefaces, converged radially toward a central printing point, striking the paper-wrapped cylindrical platen through an inked ribbon to produce impressions at a uniform velocity.^[1] The arrangement of typebars in an arc ensured that even if multiple bars were actuated in quick succession, their paths minimized interference, though jamming remained possible with excessive speed due to the mechanical linkages' inertia and the absence of individual springs on early models.^[6] This design prioritized reliability over typing velocity, reflecting the empirical testing Sholes conducted to balance print quality against operational jams.^[17] The initial Sholes and Glidden models, produced starting in 1874, supported only uppercase characters, with no shift mechanism; lowercase required manual repositioning of the paper or a separate typing pass.^[1] Refinements in subsequent patents, such as those addressing linkage durability, improved the mechanism's precision, but the core typebar pivot and radial strike persisted as foundational to later typewriter evolutions.^[3]

Operational Limitations and Design Trade-offs

The Sholes and Glidden typewriter operated as an upstrike mechanism, printing on the underside of the platen, which rendered it a "blind writer" where operators could not view the text being produced in real time.^[18] This design limitation necessitated periodic checks by lifting the carriage or removing the paper to verify alignment and accuracy, increasing the risk of errors and slowing workflow compared to visible printing systems.^[19] A primary mechanical challenge was the propensity for typebars to collide and jam at the printing point, stemming from the radial arrangement of the type basket where multiple arms converged.^[19] To mitigate this, the QWERTY keyboard layout deliberately separated frequently used letter pairs—such as "q" and "w" or "e" and "r"—reducing the likelihood of adjacent keys being struck in rapid succession and thus clashing en route to the platen.^[6] This trade-off prioritized mechanical reliability over typing efficiency, as the arrangement slowed proficient typists by hindering common digram flows, a compromise retained in subsequent models despite alternatives optimized for speed.^[20] The absence of a shift mechanism confined output to uppercase letters only, limiting versatility for documents requiring mixed case and necessitating manual adjustments or separate machines for varied formatting.^[21] Typing speeds were further constrained by the deliberate key resistance and linkage inertia, with skilled operators achieving approximately 40-50 words per minute at best, far below modern standards, as the system demanded precise, unhurried strikes to avoid jams or misalignments.^[18] These constraints reflected foundational engineering choices favoring simplicity and durability in early metalworking over advanced ergonomics or speed, influencing the device's niche adoption in business correspondence where legibility trumped velocity.^[22]

Commercialization and Production

Business Partnerships and Role of James Densmore

The development of the Sholes and Glidden typewriter involved initial collaboration among Christopher Latham Sholes, Carlos Glidden, and Samuel W. Soule, who began work in 1867. Soule soon withdrew from the partnership, leaving Sholes and Glidden to seek additional support. James Densmore, a former newspaper associate of Sholes from Milwaukee, joined as a key financial backer and business promoter in late 1867 or early 1868, providing capital essential for prototyping and refinement. Densmore's investment enabled the group to secure patents and pursue commercialization, forming the basis for subsequent business arrangements.^[7]^[18] Densmore played a pivotal role beyond funding, exerting pressure on Sholes to iterate designs repeatedly to achieve reliability, including advocating for a separated keyboard layout to minimize typebar jamming—a precursor to the QWERTY arrangement. By 1873, financial strains led Sholes, Glidden, and others to sell most of their shares in the typewriter patents to Densmore, allowing him to seek larger-scale manufacturing partners. Densmore negotiated the sale of manufacturing rights to E. Remington and Sons, an arms and sewing machine producer in Ilion, New York, in early 1873, securing royalties for himself and retaining involvement as sales manager during initial production. This partnership shifted production from artisanal efforts to industrialized output, with Remington beginning assembly on March 1, 1873.^[23]^[7]^[5] Under the Remington agreement, Densmore's persistence ensured ongoing revenue streams; Sholes received a lump sum of $12,000 for his interest, while Densmore's royalty demands yielded substantial long-term earnings exceeding $500,000 over time. Densmore's business acumen contrasted with the inventors' technical focus, driving the typewriter from experimental device to marketable product despite early skepticism about its viability. His efforts bridged invention and enterprise, though tensions arose from his aggressive promotion and profit prioritization.^[7]^[16]

Manufacturing by Remington and Market Entry

E. Remington and Sons, an established manufacturer of firearms and sewing machines seeking diversification, acquired the rights to produce the Sholes and Glidden typewriter in early 1873.^[5] The company initiated manufacturing on March 1, 1873, at its facility in Ilion, New York, retaining the Sholes and Glidden branding for the initial model.^[5] ^[17] Remington engineers refined the design, adapting components such as the cast-iron frame and treadle mechanism from their sewing machine production lines to enhance durability and usability.^[1] The typewriter entered the market on July 1, 1874, priced at $125, positioning it as an affordable office tool despite its novelty.^[24] Early production emphasized quality control, with machines featuring a two-row keyboard and uppercase-only printing, mounted on sewing machine stands for stability.^[17] Initial sales were modest, with approximately 5,000 units sold between 1874 and 1878, reflecting challenges in demonstrating the device's value to potential buyers accustomed to handwriting.^[11] Remington handled distribution directly, targeting businesses and professionals, though marketing efforts yielded lackluster results until later outsourcing in 1878.^[24] Remington's manufacturing scale enabled the first mass production of a practical typewriter, producing over 2,000 units in the debut year and establishing a supply chain that supported incremental improvements.^[11] The company's expertise in precision machining contributed to the machine's reliability, with typebars striking against an inked ribbon and paper wrapped around a platen, though operational quirks like the lack of lowercase letters limited versatility.^[1] This production run laid the groundwork for Remington's dominance in the typewriter industry, transitioning the device from prototype to commercial staple.^[17]

Reception, Impact, and Criticisms

Economic and Productivity Effects

The introduction of the Sholes and Glidden typewriter in 1873 marked a pivotal advancement in office mechanization, enabling document production at speeds exceeding handwriting, typically limited to around 20 words per minute.^[11] Early models facilitated typing rates that, while initially modest due to mechanical constraints, allowed skilled operators to surpass manual clerks, with Remington advertisements claiming later variants wrote three times faster than the best penman.^[24] This efficiency gain stemmed from the machine's ability to produce uniform, legible text without the variability of handwriting, reducing errors and revision time in business correspondence. Productivity effects were quantified in contemporary assessments, where one typewriter operator could match the output of six manual clerks, saving approximately 40 minutes per hour—or over five hours daily—through streamlined transcription and duplication via carbon paper.^[25] Such gains lowered operational costs for businesses handling increasing volumes of records in the post-Civil War expansion era, fostering systematic management practices by minimizing document creation expenses and expediting information flow.^[26] The device's $125 price point, equivalent to several months' clerical wages, positioned it as an investment yielding rapid returns in high-volume offices.^[24] Economically, adoption began modestly with annual sales of about 1,000 units from 1874 to 1879, reflecting initial skepticism and a sluggish 1870s economy, but accelerated to 5,000 units by 1885 and 20,000 by 1890 as productivity benefits became evident.^[24] By 1891, over 100,000 Remington machines had entered the market, spurring competition and industry growth that amplified mechanical office equipment's role in American commerce.^[24] These developments contributed to broader economic efficiencies, as typewriters curbed the rising costs of managing burgeoning paperwork in railroads, insurance firms, and government agencies, though full sectoral penetration awaited refinements in the 1880s.^[25] The commercialization of the Sholes and Glidden typewriter by E. Remington and Sons starting in 1873, with significant sales by 1874, initiated a shift in office labor by mechanizing writing tasks previously done by hand, thereby expanding clerical roles to accommodate growing business documentation needs.^[27] This created demand for machine operators, initially dominated by men in the mid-1870s, but the device's keyboard layout, resembling piano keys, facilitated rapid adoption by women who possessed related manual skills from domestic activities.^[27] Early advertisements, such as a 1875 Remington promotion, explicitly targeted women, highlighting weekly earnings of $10 to $20 for typists.^[27] Employment in stenography and typing surged from 154 workers in 1870 to 5,000 by 1880, with women comprising 40% of these roles by 1880, up from negligible shares earlier in the decade.^[27] This pattern reflected a broader feminization of clerical work, reaching over 75% female typists by 1900 and 95% by 1930, as typewriter use standardized and accelerated office productivity, allowing businesses to hire more semi-skilled operators rather than highly trained male clerks.^[27] Women's share of overall clerical positions rose from 2.3% in 1870 to 16.4% in 1890, driven by post-Civil War precedents like female clerks in the U.S. Treasury who performed comparably to men at lower wages.^[27] Econometric analysis indicates typewriter adoption causally boosted women's labor force participation by 1.1 to 2.1 percentage points for each 1% increase in typists from 1880 to 1920, contributing to approximately 1.7 million additional female workers by 1920 through the creation of accessible white-collar jobs.^[28] While this opened pathways to financial independence and office environments previously male-dominated, it often segregated women into lower-paid, routine tasks within typing pools and secretarial positions, reinforcing gender-specific labor divisions amid industrial expansion.^[1]^[27] By the early 1900s, such roles became ubiquitous in modern offices, with clerical work comprising over half female by 1900.^[27]

Technical Shortcomings and Long-term Legacy Debates

The Sholes and Glidden typewriter, as produced by E. Remington and Sons starting in 1873, suffered from mechanical sluggishness in its typebar mechanism, where the pivoting arms moved slowly and frequently jammed when adjacent keys were struck in rapid succession.^[11] This jamming arose from the direct mechanical linkage between the keyboard and the typebars, which lacked sufficient damping or separation to handle speeds beyond deliberate, unhurried input, limiting practical typing rates to around 20-30 words per minute for skilled operators.^[11] Additionally, the machine operated exclusively in uppercase letters, with no shift mechanism for lowercase until subsequent Remington models in 1878, constraining its utility for varied correspondence and manuscripts.^[22] These design constraints stemmed from the era's metallurgical and precision manufacturing limits, including brittle type metals prone to wear and imprecise key spacing that exacerbated collisions, yet they were partially mitigated by the QWERTY keyboard arrangement, which deliberately spaced common letter pairs to reduce jamming probability. Despite these mitigations, the typewriter's operational unreliability contributed to its initial slow market penetration, as users reported frequent maintenance needs and frustration with incomplete impressions or misalignments from uneven platen pressure.^[22] In long-term legacy debates, the persistence of the QWERTY layout—despite the obsolescence of jamming risks in electric and digital keyboards—highlights path dependence in technological standards, where entrenched training for millions of users outweighs efficiency gains from alternatives like the Dvorak Simplified Keyboard, proposed in 1936 and claiming 20-40% faster typing through optimized letter frequencies.^[29] Historians contest the origins of QWERTY's arrangement, with early accounts attributing it primarily to anti-jamming measures, though some analyses suggest influences from telegraph code efficiency or alphabetical biases in Sholes' prototypes, underscoring how mechanical compromises became codified norms.^[30] Critics argue this lock-in exemplifies suboptimal evolution, as modern ergonomic studies show QWERTY's finger travel inefficiency burdens users with higher error rates and fatigue compared to redesigned layouts, yet adoption barriers—retraining costs and software defaults—perpetuate it globally.^[31] Proponents counter that QWERTY's universality facilitated typewriter-led productivity revolutions, embedding it as a foundational interface whose familiarity trumps marginal gains elsewhere.

References

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Sholes & Gildden Type Writer | National Museum of American History
Although the Remington-made Type Writer was not the first mechanical writing machine, it was the earliest to have commercial success. At first Type Writers ...
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Sholes & Glidden Desk Typewriter, 1874-1876 - The Henry Ford
... Sholes & Glidden was the first commercially successful typewriter. Its adoption by large corporations kickstarted the typewriter industry and contributed to ...
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A full, clear, and exact description of the invention, which will enable those skilled in the art to make and use the same, reference being had to.Missing: details | Show results with:details
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Sholes, Glidden, & Soule Typewriter Patent Model
This Sholes, Glidden, & Soule typewriter patent model was awarded patent number 79,265 on June 23rd, 1868. C. Latham Sholes, Carlos Glidden, and Samuel Soule ...Missing: details | Show results with:details
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Production on the Sholes and Glidden Type-Writer Began
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The Sholes and Glidden typewriter came to market in 1874, manufactured by E. Remington & Sons, which was then expanding its offerings.
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Sholes & Glidden typewriter developed by Christopher Latham Sholes of Milwaukee, Wisconsin and marketed c. 1874. (Museum object #1964.31)Wisconsin Historical Museum... · Sholes & Glidden Typewriter... · James DensmoreMissing: primary | Show results with:primary<|separator|>
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249 Sholes & Glidden 'Type Writer' - ASME
21-day returnsThe Sholes & Glidden 'Type Writer' was the first commercially successful device that rapidly printed alphanumeric characters on paper in any order.
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Feb 25, 2025 · One popular theory states that Sholes had to redesign the keyboard in response to the mechanical failings of early typewriters, which were ...
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Christopher Latham Sholes (1819-1890), inventor of the first practical typewriter · Carlos Glidden (1834-1877), co-inventor of the typewriter · Samuel W. Soulé ( ...
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A patent was awarded on July 14, 1868, to Sholes, Glidden, and Soulé for a “new and useful improvement in typewriting machines.” The inventors then turned ...
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The typewriter was reinvented dozens of times; but credit for the first practical machine is given to Christopher Latham Sholes of Milwaukee.
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In 1874, E. Remington & Sons began to manufacture and market a subsequent model of the Sholes & Glidden Type Writer at a price of $125. One of these machines is ...
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The typewriter, by reducing the time and expense involved in creating documents, encouraged the spread of systematic management. It allowed a system of ...<|control11|><|separator|>
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Sholes developed the QWERTY keyboard in 1872 to resolve both problems. It is still the standard layout because millions of typists are trained in its use.
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Why your keyboard layout is stuck in the 1800s | by Elvis Hsiao
Jan 20, 2025 · This mechanical challenge led Sholes to embark on an iterative design process. Over the next five years, he made numerous refinements to the ...