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Bramah lock

The Bramah lock is a pioneering lever tumbler lock invented by English engineer Joseph Bramah in 1784, characterized by a cylindrical barrel containing multiple radial sliders that must be precisely aligned by a key's varying notches to permit rotation and unlocking.^[1]^[2] This design represented a significant advancement in lock security, as it was the first commercially produced cylinder lock resistant to manipulation and picking through its use of precisely machined components.^[1]^[3] Bramah patented his lock on April 23, 1784, under British patent GB-1784-01430, establishing his company in London to manufacture and sell these devices for doors, cabinets, and other applications.^[2] Working with engineer Henry Maudslay, Bramah refined the mechanism, which employed a flat or barrel-shaped key inserting into a central keyway to lift between four and eighteen sliders—each with notches of specific depths—against a shared spring, aligning them at a shear line to release the bolt.^[3]^[1] Later improvements, such as false notches added in 1817 by employee William Russell, further enhanced resistance to unauthorized entry.^[4] To demonstrate its invulnerability, Bramah displayed a special "Challenge Lock" in his shop window from 1790, offering a 200-guinea reward (equivalent to approximately £40,500 in 2025) to anyone who could pick it without the key; this padlock remained secure for over 60 years until American locksmith Alfred Charles Hobbs defeated it in 1851 after 51 hours of work across 16 days at the Great Exhibition in London's Crystal Palace.^[3]^[1] Hobbs's success, achieved through innovative tools and techniques, highlighted vulnerabilities in even advanced lever designs and spurred further innovations in lock security.^[3] The Bramah lock's enduring influence is evident in its continuous production for over two centuries with minimal changes, evolving into modern high-security variants still made by Bramah Security Equipment in London, now under descendant Jeremy Bramah.^[1] Its precision engineering and anti-manipulation features laid foundational principles for contemporary lever and pin tumbler locks, emphasizing the balance between mechanical complexity and practical security.^[1]^[3]

History

Invention and Early Patents

Joseph Bramah, born on April 13, 1748, in Stainborough, Yorkshire, was the son of a farmer and received only a basic education before being apprenticed to a local carpenter named Thomas Allott.^[5] After completing his apprenticeship around 1770, Bramah relocated to London, where he established a small cabinet-making and carpentry business, initially focusing on furniture and woodworking.^[5] His interest in mechanical invention grew during this period; by 1778, he had patented an improved flush toilet design, which marked his transition from craftsmanship to innovative engineering and provided the financial foundation for further pursuits.^[3] In 1784, Bramah turned his attention to locksmithing, developing what is recognized as the first known high-security lock design incorporating a sliding wafer mechanism to resist picking and unauthorized entry.^[6] He secured British Patent No. 1430 for this invention that same year, describing a barrel-shaped lock operated by a cylindrical key with longitudinal slots that aligned multiple internal sliders.^[6]^[7] To commercialize the design, Bramah established his locksmithing business, Bramah and Company, initially at Denmark Street in St. Giles before quickly relocating to 124 Piccadilly in London, where it became a prominent workshop for producing these advanced security devices.^[8] Bramah's lock gained further refinement through a second patent in 1798 (No. 2232), which extended the original protection for an additional 14 years and introduced improvements to enhance durability and precision.^[7] Central to these advancements was Bramah's collaboration with engineer Henry Maudslay, whom he employed as workshop foreman from 1789 to 1797; Maudslay designed and built specialized machine tools capable of fabricating the lock's intricate components to exact tolerances, enabling reliable mass production of the high-security mechanism.^[9] In 1790, Bramah introduced a promotional "challenge lock" version to demonstrate its invulnerability, further solidifying the invention's reputation in the late 18th century.^[3]

The Challenge Lock and Its Picking

In 1790, Joseph Bramah displayed a special variant of his lock, known as the challenge lock, in the window of his Piccadilly shop in London, accompanied by a sign offering a reward of 200 guineas to anyone who could pick it without the key. The inscription on the display read: "The artist who can make an instrument that will pick or open this lock shall receive 200 guineas the moment it is produced."^[10] This promotional stunt was intended to demonstrate the lock's security, and it remained unpicked for over 60 years, enhancing Bramah's reputation as an innovator in lockmaking.^[4] The original challenge lock featured 18 iron slides, each equipped with multiple false notches to increase complexity and deter picking attempts, crafted by Henry Maudslay under Bramah's direction.^[4] After its historic picking, the lock was rebuilt with enhancements, including 13 steel slides, each with an independent spring, and is now preserved in the Science Museum in London.^[4] In 1851, American locksmith Alfred Charles Hobbs accepted the challenge at the Great Exhibition in London's Crystal Palace, where the lock was on display. Using custom tools such as a steel rod, needle, and crochet-hook-like instruments, Hobbs manipulated the rack and sliders by feeling the notches and countering the spring pressure, succeeding after 51 hours of work spread over 16 days without damaging the mechanism.^[11]^[4] He received the 200-guinea prize, which a committee confirmed was fairly earned.^[11] Following his success, Hobbs analyzed the vulnerabilities he exploited and proposed modifications to the Bramah design, such as improved slider construction and false notching, which informed his own patents for more secure locks, including enhancements adopted by his firm, Day & Newell.^[12] These innovations spurred broader advancements in lock security during the mid-19th century.^[12]

Company Evolution

The Bramah lock company was founded in 1784 by Joseph Bramah at Denmark Street, St. Giles, London, before quickly relocating to 124 Piccadilly, where it established its reputation for high-security locks and engineering innovation.^[8] Under Bramah's leadership, the business expanded significantly, leveraging his inventions—including the patented lock mechanism granted in 1784—to produce advanced security products that gained widespread acclaim among elite clientele.^[13] The company's growth was marked by the introduction of the renowned "Challenge Lock" in 1790, displayed prominently at the Piccadilly premises, which underscored Bramah's commitment to unpickable designs and helped solidify the firm's position as a leader in locksmithing.^[14] Joseph Bramah's death in 1814 did not halt operations; instead, the company transitioned smoothly under his sons, becoming J. Bramah and Son in 1813 with Timothy Bramah joining as partner, followed by further partnerships with Francis, Edward, and John Joseph Bramah through the early 19th century.^[8] Throughout the 19th century, the firm maintained continuity at 124 Piccadilly, adapting to industrial changes while upholding Bramah's engineering legacy, including brief partnerships like Bramah and Robinson from 1837 to 1841 and a split in 1841 that retained the core lock-making operations as Bramah & Co.^[14] By the early 20th century, after acquisitions such as by Whitfield Safe & Lock Company in 1901, the company relocated to Oldbury Place in Marylebone (near Fitzrovia) and reverted to the Bramah & Co name in 1904, earning a Royal Warrant from King George V.^[8] Further moves included 2 Nottingham Street in 1926 and 11 Old Bond Street in 1936, with incorporation as Bramah Manufacturing Co Ltd in 1934, later renamed Bramah's Ltd.^[14] The business weathered challenges, such as the 1851 public picking of its Challenge Lock, which briefly affected its reputation but did not derail long-term operations.^[8] In 1966, Bramah's Ltd was acquired by J. R. Bramah & Co Ltd and renamed Bramah Security Equipment Ltd, marking a pivotal shift toward modern security product diversification while preserving traditional craftsmanship.^[14] Subsequent ownership changes included purchase by Jeremy Bramah in 1986, prompting relocation of assembly to Hornchurch, Essex, in 1987.^[8] By the late 20th century, the company established manufacturing in Romford, Essex, and maintained its central London presence, evolving to 7 Goodge Place in Fitzrovia.^[15] Key milestones under this era include the 1998 introduction of the narrow stile cabinet lock in a compact 32mm size, enhancing applications for slim door profiles.^[14] As of 2025, Bramah Security Equipment Ltd remains active, operating from Fitzrovia and Romford sites to produce high-security locks, alarms, and related equipment, continuing its 240-year legacy as London's oldest security firm.^[16]^[17]

Design

Components and Construction

The Bramah lock consists of a cylindrical body, primarily made of brass for durability and corrosion resistance. This body encases a fixed barrel that includes radial slots positioned to hold the lock's internal sliders, ensuring a compact and robust structure suitable for mounting on doors or in furniture. The precision in machining these components was essential, as even minor deviations could compromise the lock's integrity.^[18] The key is cylindrical in shape, featuring slots of varying depths cut into its barrel end that correspond precisely to the sliders within the barrel. Original keys were hand-fitted to individual locks, requiring custom cuts to match the specific positioning of each slider's notch, which contributed to the lock's bespoke nature and resistance to unauthorized duplication. This design marked a departure from traditional flat keys, aligning with the 1784 patent's emphasis on innovative keyhole geometry.^[19] Central to the lock are the sliders, which in the challenge version comprise 18 thin plates of iron or steel, each equipped with a notched rack along one edge. Standard locks typically featured 4 to 7 sliders. These sliders are tensioned by a single spring that presses them against the barrel's inner surface, maintaining their default blocking position. The notches on each slider allow passage of the key only when aligned correctly.^[4] The construction of the Bramah lock relied heavily on advanced precision engineering, particularly the slide rest lathe developed by Henry Maudslay during his tenure at Bramah's workshop starting in 1789. This tool enabled the accurate turning and cutting of brass and steel parts to tolerances necessary for the mechanism's function, facilitating the production of locks with up to 470 million possible permutations through the combinatorial arrangement of slider positions.^[20]^[1]

Operating Mechanism

The Bramah lock operates using a series of radial sliders, also known as wafers, housed within the rotating barrel or cylinder. The key is a small cylindrical tube with longitudinal slots of varying depths cut into its terminal end, designed to engage these sliders when fully inserted into the keyway. Upon insertion, the key's slots push the spring-loaded sliders inward against their tension, positioning each slider's notch at a precise depth relative to the barrel's shear line.^[1]^[19] When the correct key is used, the sliders' notches align in a straight radial line along the shear line, clearing the obstruction formed by the stationary housing or plug shell. This alignment allows the barrel to rotate freely within the shell, typically in a counterclockwise direction, which in turn drives a cam or arm to retract the lock's bolt and open the mechanism. The rotation is limited to the necessary arc—often around 90 to 180 degrees—after which the bolt is fully disengaged.^[1]^[18] To lock the mechanism, the key is turned back to its starting position, extending the bolt via the cam, and then withdrawn. As the key is removed, the springs restore the sliders to their default outward positions, misaligning their notches relative to the shear line and preventing any further rotation of the barrel. This spring-driven reset ensures the lock remains secure without additional user action.^[19]^[1] Unlike modern tubular pin tumbler locks, which rely on axially movable pins lifted by the key to align at a shear line, the Bramah design employs fixed-position sliders that move radially under spring pressure, providing a distinct interaction between key and tumblers.^[1]

Security Aspects

Strengths and Innovations

The Bramah lock represented a pioneering advancement in lock technology as the first commercially produced cylinder lock designed to resist manipulation, featuring a barrel-shaped mechanism operated by a cylindrical key with radial notches. Invented by Joseph Bramah in 1784, it employed multiple sliding wafers—typically 18 in the challenge variant—arranged radially around the central barrel, creating an extraordinarily high number of possible permutations estimated at over 470 million. This configuration vastly exceeded the security of contemporary lever tumbler locks, which relied on fewer elements and were susceptible to decoding through visible or tactile feedback.^[1]^[4] A key innovation lay in the lock's reliance on precision machining, achieved through the craftsmanship of engineer Henry Maudslay, who developed specialized tools for accurate production starting in 1789. The tight tolerances ensured that each wafer had to align exactly to a shear line against significant spring pressure (around 30-40 pounds), rendering false keys or improvised tools ineffective due to even minor deviations in fit. This level of engineering precision not only enhanced durability but also elevated the manufacturing standards for security hardware, making replication by unauthorized means nearly impossible without equivalent tooling.^[4]^[21] The radial arrangement of the wafers further bolstered security by eliminating traditional wards and exposing no external cues for manipulation, thereby preventing common attacks such as impressioning—where a blank key is marked by internal contact—or decoding prevalent in lever locks. In lever designs, attackers could often infer positions through movement or sound, but the Bramah's enclosed, symmetrical radial layout required simultaneous precise depression of all wafers, complicating such techniques without direct access to the internal mechanism. Later enhancements, like false notches added in 1817, reinforced this resistance by misleading potential manipulators.^[4]^[1] This design established a foundational template for modern high-security locks, promoting non-warded, manipulation-resistant principles that influenced subsequent developments in cylinder and disc-detainer systems. By prioritizing internal complexity and precision over visible deterrents, the Bramah lock shifted industry focus toward engineering-based security, a paradigm that persists in contemporary standards for resisting non-destructive entry methods.^[21]^[1]

Known Vulnerabilities

The primary vulnerability of the Bramah lock lies in the direct manipulation of its radial rack through tension tools, allowing sequential alignment of the sliders (also known as wafers). In 1851, American locksmith Alfred Charles Hobbs exploited this by applying constant tension to the rack with a small bent instrument while using a straight, thin-edged tempered steel wire to probe and position each slider's notch to the shear line, a process that took him 51 hours over 16 days to complete on the 18-slider challenge lock.^[4] The lock's visible keyway also exposes it to impressioning attacks, where an attacker can create a partial working key by filing based on marks left on a blank key inserted and manipulated within the mechanism. Additionally, a thin shim (approximately 0.0015 inches thick) can be inserted to decode the precise depths of the sliders' notches, facilitating key replication without full disassembly.^[1] Modern assessments confirm the Bramah lock's susceptibility to advanced picking techniques, such as variable key methods that exploit the single shared spring's inability to independently reset sliders, as well as decoding aids like electronic endoscopes for precise measurement. Despite these weaknesses, the lock remains secure against casual or unskilled attacks due to its mechanical complexity and the precision required for manipulation.^[1] The Bramah company had introduced improvements such as false notches on the sliders in 1817 to mislead probes and complicate alignment; these were incorporated into production models, including the challenge lock, prior to Hobbs' attempt. However, the core design's fixed-position sliders inherently limit adaptability, preventing easy rekeying or reconfiguration without replacement, which reduces its practicality in contemporary high-security applications compared to more versatile modern mechanisms.^[4]

Production and Variants

Historical Production

The Bramah lock was initially produced through hand-assembly in small precision workshops established by Joseph Bramah at 124 Piccadilly in London following the company's founding in 1784. These workshops emphasized meticulous craftsmanship to achieve the lock's intricate design, with early manufacturing relying on skilled artisans to file and fit components by hand, often requiring adjustments for perfect alignment.^[18] To address the challenges of precision in slider (wafer) fabrication, Bramah employed Henry Maudslay from 1789, who developed innovative machine tools such as the slide-rest and screw-cutting lathe, enabling accurate milling and planing of metal parts.^[4] Production remained limited in scale, focused on high-end custom orders for prestigious applications such as bank vaults, safes, and grand estates. This artisanal approach prioritized quality over quantity, as the locks' complexity demanded specialized labor and deterred mass production; Bramah's workshop handled bespoke commissions, underscoring their elite status. Materials were sourced for durability and corrosion resistance, typically featuring brass casings for the barrel and exterior plates alongside iron wafers (sliders) for the internal mechanism, which provided the lock's signature security through precise notching.^[22] Following Bramah's death in 1814, his successors standardized production processes to maintain consistency while preserving the hand-fitted nature of assembly.^[4] In the 19th century, the company expanded its offerings to include padlocks and cabinet locks, adapting the core mechanism for furniture and smaller secure enclosures, with continued emphasis on bespoke fitting to meet specific client requirements for high-security applications.^[18]^[23] This evolution supported growing demand in Victorian-era estates and institutions without shifting to industrialized methods, keeping output artisanal and exclusive.

Modern Developments and Uses

In 1966, Bramah introduced a 32mm narrow stile cabinet lock, marking a significant evolution in the design's adaptability for modern furniture and cabinetry applications. This development coincided with the company's acquisition by J R Bramah & Co Ltd, leading to a rename as Bramah Security Equipment Ltd and a strategic shift toward automated machining processes to enable higher production volumes while maintaining precision craftsmanship. In 1986, the company was purchased by descendant Jeremy Bramah.^[8] Modern variants of the Bramah lock have expanded to include high-security padlocks suitable for securing gates, cabinets, and storage units; euro-profile cylinders compatible with contemporary door hardware; and anti-drill models featuring hardened components to resist forced entry attempts. These designs often integrate with master-key systems, allowing centralized control over multiple locks in institutional or commercial settings, with key variations of 524,288 differs for enhanced security granularity.^[24]^[22]^[25] As of November 2025, Bramah locks are employed in commercial security for safes, doors, and high-value asset protection, as well as in heritage restorations to replicate original 18th- and 19th-century fittings in historic buildings and sites. Produced by Bramah Security Equipment Ltd, these premium locks continue to emphasize durability and pick resistance, serving both new installations and preservation projects.^[16]^[24] To address historical vulnerabilities such as impressioning and slider manipulation, contemporary adaptations incorporate stainless steel construction for corrosion resistance and improved strength, alongside enhanced wafer configurations that increase the complexity of the radial slider mechanism. These modifications ensure compliance with modern standards like BS 3621, bolstering overall security without altering the core patented principle.^[24]^[22]

Legacy and Influence

Impact on Locksmithing

The Bramah lock pioneered the use of cylinder mechanisms in high-security locks, setting a foundational precedent that directly inspired subsequent innovations in the field. Its radial slider design, introduced in 1784, advanced beyond earlier lever tumblers by incorporating a barrel-shaped key that actuated multiple internal sliders, influencing the development of Jeremiah Chubb's detector lock in 1818, which added mechanisms to detect tampering attempts.^[13]^[26] This progression culminated in Linus Yale Jr.'s pin tumbler lock of 1861, which built on cylindrical principles to create more scalable and mass-producible secure systems.^[26] By achieving up to 470 million possible permutations through its arrangement of sliders—typically six to twelve in number—the Bramah lock established enduring standards for permutation complexity and manufacturing precision in locksmithing.^[27] This required exact tolerances in slider movement and key notching, raising the bar for engineering quality and influencing global standards for high-security lock development, where similar emphasis on combinatorial security remains central.^[13] Lockmakers thereafter prioritized such precision to deter manipulation, shaping industry practices for evaluating lock resistance. The Bramah lock's cultural impact elevated public awareness of lock security during the late 18th and 19th centuries, as Joseph Bramah displayed a challenge lock in his shop window with a 200-guinea prize for anyone who could pick it, fostering a spectacle that drew widespread attention.^[26] This initiative, which went unmet for over 60 years until the 1851 Great Exhibition, sparked a wave of public challenge contests and intensified patent races among locksmiths, driving competitive innovation in secure mechanisms.^[28] The eventual picking of the Bramah lock by Alfred Charles Hobbs in 1851, after 51 hours of effort, briefly referenced the era's quest for "perfect security" but ultimately spurred further industry improvements.^[26] Its long-term legacy is evident in the principles traceable to modern tubular and dimple key locks, which adapt cylindrical keyways and radial actuation for applications in automotive ignitions and residential doors.^[24] These evolutions retain Bramah's focus on multi-element resistance to picking, ensuring his innovations continue to underpin contemporary high-security designs.^[29]

Notable Surviving Examples

One of the most prominent surviving examples of a Bramah lock is the 1790 challenge lock, a padlock originally displayed in Joseph Bramah's Piccadilly shop window with a substantial reward offered to anyone who could pick it without the key. This lock, renowned for its security, remained unpicked for over 60 years until American locksmith Alfred C. Hobbs succeeded in 1851 after 51 hours of work over 16 days; it has since been rebuilt and is now housed at the Science Museum in London, where it exemplifies early precision engineering in locksmithing.^[4]^[3] Original display locks from Bramah's Piccadilly shop, including components like the challenge board, survive in private collections and institutional holdings, underscoring the locks' historical role in promoting Bramah's innovations. A related display board from the Piccadilly office is preserved at the Science Museum Group Collection, highlighting the commercial presentation of these early high-security devices.^[30] Examples of 19th-century Bramah safe locks, once used by major institutions such as the Bank of England, are preserved in specialist locksmith museums and collections, including the Randolph Douglas collection of patented locks dating from 1784 to 1852. These artifacts demonstrate the locks' application in securing high-value assets and their craftsmanship, which advanced mechanical security standards.^[31]^[10]

References

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Bramah Locks - Matt Blaze
Apr 21, 2003 · First manufactured by Joseph Bramah in 1784, these locks were probably the first commercially produced cylinders to offer good security against manipulation.
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Patents for Joseph Bramah - DATAMP
GB-179,802,232, May 03, 1798, J. Bramah, Improvement in locks for doors, cabinets, &c. door and window hardware ; GB-180,102,560, Nov. 28, 1801, J. Bramah ...
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Scientist of the Day - Joseph Bramah, English Mechanic, Inventor
Apr 13, 2022 · But he is best known for his unpickable lock. He went into the lock business in 1784, with a new kind of lock that was very secure. In 1789 he ...
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Bramah's 'Challenge Lock' - Antique Box Guide
In 1817, one of Bramah's employees, William Russell, came up with the addition of false notches on all the sliders and the locking plate; this made it seemingly ...
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Apr 16, 2025 · 1798 Henry Maudslay left Bramah's and set up business in Wells Road as Henry Maudslay and Co. 1808 J. Braham and Son, of West End ...
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Joseph Bramah - Graces Guide
Nov 8, 2023 · 1784 Bramah started Bramah and Co at Denmark Street, St Giles, London, soon after moving to 124 Piccadilly. The locks produced by his company ...
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Henry Maudslay | Science Museum Group Collection
1789 - at the age of 18, working for Joseph Bramah, Maudslay devised and constructed the machines capable of producing the precisely designed parts for his ...
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Aug 3, 2017 · In 1790, Bramah ... "The artist who can make an instrument that will pick or open this lock shall receive 200 guineas the moment it is produced.
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Alfred Charles Hobbs - Linda Hall Library
Oct 7, 2021 · Joseph Bramah (with the help of Henry Maudslay) had made a padlock in 1790 that he claimed was unbreakable, and he displayed in in his shop ...
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“We believed before the Exhibition opened that we had the best locks in the world,” wrote the Times, “and among us Bramah and Chubb were ...
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Joseph Bramah was a leading inventor of the industrial revolution, patenting over 18 new ideas, including a new valve for the water closet (toilet).
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### Chronological Timeline of Bramah Locks Company History
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Romford Essex RM7 0HL United Kingdom Click here for Location Map Hours of Business: Monday to Friday 8.00am to 4.30pm. Saturday by arrangement. Romford – ...
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Bramah UK: British Lock Manufacturer, Locksmiths, and Alarm ...
Bramah is London's oldest security company. Established at 124 Piccadilly, London in 1784, and today based in Fitzrovia, London and Romford, Essex.
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bramah security equipment limited - Companies House - GOV.UK
More for BRAMAH SECURITY EQUIPMENT LIMITED (00289584). Registered office address: 7 Goodge Place, Fitzrovia, London, W1T 4SF. Company status: Active. Company ...Missing: Romford Essex
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Antique Bramah Locks - The Hygra
The story of Joseph Bramah's locks begins in 1784 when he was granted letters patent for "a LOCK, constructed on a new and infallible Principle, which ...
[19]
Bramah Locks and Keys - Antique Box Guide
Antique self-locking Bramah patent lock disassembled: View of the two halved steel locking plates, central cylinder, cylinder arm, pin and seven steel sliders.
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Henry Maudslay - Graces Guide
Jan 14, 2024 · 1789 Maudslay joined Bramah, who had designed a new type of high security lock and obtained a patent for 1784. It seems that little headway was ...
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Bramah's Lock - Historic UK
His name was Joseph Bramah, a farmer's son, born in 1748. His clever invention is still used today – the Bramah Lock.Missing: original | Show results with:original
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Bramah - Lockwiki
Nov 24, 2022 · Bramah is an English lock manufacturer that produces medium and high security padlocks, lock cylinders, and safes.Missing: wafers materials
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Georgian and Victorian furniture locks by Bramah, London
Bramah furniture locks were designed to be pick-resistant and tamper-proof, securing drawers and cabinets, and were highly sought after.Missing: padlocks | Show results with:padlocks
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Bramah UK: British Lock Manufacturer, Locksmiths, and Alarm ...
In 1784, Joseph Bramah designed a round lock mechanism operated by a tubular key, of such complexity and security, that he put it in his shop window and ...Missing: high- wafer
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[PDF] BRAMAH SECURITY EQUIPMENT LIMITED - London
Bramah Lock Range (Mortice, Cylinder, Cabinet, Padlock, Safe). 11 – 15. Bramah Key ... Anti Drill Plate - Sash Lock - Euro Cylinder - 57mm. 15.69. Security ...
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Perfect Security - 99% Invisible
Apr 14, 2015 · His so-called “Bramah safety lock” had layers of complexity in between the key and the deadbolt which Bramah believed made it 100% theft-proof.
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Aug 12, 2025 · The Bramah lock used a cylindrical key whose end was cut with a series of longitudinal slots ...
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Lock-picking competitions first captured the imagination of the British public at the Great Exhibition of 1851. These contests pitted rival brand-.Missing: awareness | Show results with:awareness
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Patenting the Lock. In 1784, Bramah secured a patent for his lock, and the rest, as they say, is history. He established the Bramah Lock Company, and soon ...<|separator|>
[30]
Bramah lock display board from Piccadilly Office
If you are visiting to see this object, please contact us in advance to make sure that it will be on display. Details. Category: Locks & Fastenings. Object ...Missing: Original Victoria Albert
[31]
Object : Patent locks and keys, Randolph Douglas - BBC
This case contains patented locks by Joseph Bramah, Odell and Strutt, made between 1784 and 1852. The Chubb locks include detector padlocks and a combination ...Missing: features | Show results with:features
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Joseph Bramah, in collaboration with his chief engineer, Henry Maudslay, created what he called the 'Challenge Lock'; this padlock was displayed in Bramah's ...