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Form-fit connection

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The lid over the teapot is a form-fit connection along the vertical downward direction and any horizontal linear direction. It is not along a rotational direction.

A form-fit, form-locking or form-closed connection is a type of mechanical connection between two parts (example: screw and screwdriver), wherein these parts due to their forms interlock and block each other along at least one defined linear or rotational direction.[1][2][3][4]

Form-fit connections are created by the interlocking of the connecting components. For example, the lid cannot slip sideways away from the pot because both interlock at the edge. On the other hand, a round lid can be rotated while sitting on the pot, because there is no form-fit against the rotation. Towards the bottom, the lid has a stop against the pot. This is a "half form-fit" because upwards it can be removed.

A form-fit acts via the geometric contact of two effective surfaces, and the effective forces are transmitted as normal forces to the effective surfaces of a driver part (surface pressure and Hertzian contact stress). Typically, some manufacturing-related tolerance occurs in the connection during form-fit.

In a form-fit connection, one connection partner blocks the movement of the other. Such "blocking" occurs in at least one direction. If a second pair of surfaces is arranged opposite, the opposite direction is also blocked.

Description

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The animation shows a clothespin

Is a type of joint between parts, used to hold them together. takes advantage of their geometry. [5] That is, unlike friction fasteners, which rely on clamping force, form-fitting fasteners use, as stated, the shape of the parts themselves to prevent them from separating. Joints can be fixed, articulated or other types. [6]

Examples: [7]

  • Keys and cotter pins : Used to join shafts and gear wheels.
  • Dovetail joints: Used in carpentry to join pieces of wood.
  • Gears : Where the teeth of one gear mesh with the teeth of another.
  • Tongue and groove
  • Zipper

In solid assemblies, the forces that can act can be diverse. Often, in addition to the relative shapes, there are other effects (friction, elastic forces, adhesives, etc.) that must be taken into account for correct operation. For example, two Lego pieces fit together with a little interference. The plastic is sufficiently elastic and provides a small anchoring force. A balder assembly would not offer any anchoring effort and the stability of assemblies with hundreds of pieces would be very precarious. [8]

Form-fit closures can be observed in everyday objects and tools from primitive times to more advanced applications.

  • Animation comments.

Made up of three pieces: two arms (wood or plastic) and a spring with levers. The spring is press-fitted by inserting the levers into the slots in the arms. The spring is left with some tension. The shape of the arms and the spring, and the initial tension, ensure a stable connection of the assembly. And they allow the operating movements: opening, closing and providing a clamping force.

LEGO pieces

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Standard Lego piece dimensions. [9] [10]

Lego pieces of all varieties form a universal system that is a typical case of form-fit closure. Despite the variation in design and purposes of individual pieces over the years, each piece remains compatible in some way with existing pieces. Lego bricks from 1958 still fit together with those made today, and Lego sets for toddlers are compatible with those made for teenagers. Six 2×4 stud bricks can be combined in 915,103,765 ways.

Dry stone

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Dry stone constructions, whether natural or worked, base their stability on the relative shape of the stones and their arrangement as a whole. Considering gravity and friction, they constitute a traditional solution and an example of form-fit closure. In 2018, UNESCO inscribed this practice on the Representative List of the Intangible Cultural Heritage of Humanity, under the name Knowledge and techniques of the art of building dry stone walls, affecting the territory of Croatia, Cyprus, France, Greece, Italy, Slovenia, Spain and Switzerland.[11]

Primitive weapons

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Inuit using a propeller

Javelin launchers have a tooth or protuberance for the base of the projectile to rest on. The temporary connection between the propellant and the projectile is a form-fitting closure.

Violin

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  • Figure 1 shows the piece called the soul of the violin. A small cylindrical piece of wood that is mounted with slight interference between the soundboard and the bottom. Without any glue. A fixed form-fit closure that can be disassembled. [12]
  • The tuning pegs on a violin have a slightly tapered part that fits into a tapered hole in the head of the instrument. Four pins, four holes, which make up a form-fit closure.
  • Figura 1. Secció mostrant l'ànima.
    Figure 1. Section showing the form-fit piece.
  • Figura 2. Claviller d'afinació.
    Figure 2. Tuning peg.
  • Figura 3. Clavilla d'afinació. Lleugerament cònica.
    Figure 3. Tuning peg. Slightly conical.

Transmatic Transmission [13]

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In 1987, a continuously variable transmission based on a metal belt (multi-piece) was marketed. The design and manufacture were also by Van Doorne. The operating system was similar to that of the Variomatic . But the new metal belts worked by compression, unlike the rubber ones, which transmitted the force by traction. [14] [15]

The multi-piece belt consisted of a multitude of small steel pieces mounted between two flexible hardened steel belts. Each small piece was guided by a strap on each side, forming a form-fit closure.

Puzzle

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There are several three-dimensional puzzles based on form-fit closures.

References

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  1. ^ Engineersfield. "Form fit and frictional locking connections". Engineersfield. Retrieved 2023-02-23.
  2. ^ Prof. Dr.-Ing. H. Gruss: Maschinenelemente - Formschlüssige Verbindungen, Fachbereich 6, Hochschule Anhalt. In: www.hs-anhalt.de. Retrieved December 2022.
  3. ^ US 7665281, Send, Dietmar; Riegger, Peter & Wokurka, Joachim, "Packaging with a subsequently moulded form-fit connection", published 2010-02-23, assigned to CFS Germany GmbH 
  4. ^ Altenbach, Holm; Johlitz, Michael; Merkel, Markus; Öchsner, Andreas (2022-12-02). Lectures Notes on Advanced Structured Materials. Springer Nature. ISBN 978-3-031-11589-9.
  5. ^ Costas', P.C. (2004). Manual Tecnico para el Instalador de Maquinas y Equipos Industriales. Electricidad y electrónica (in Spanish). Ideaspropias Editorial. p. 2. ISBN 978-84-96585-37-9. Retrieved 2024-08-24.
  6. ^ Rodríguez, J.C.S.; Retana, M.; Montes, J.R.; De La Peña Esteban, F.D. (2005). Sistemas mecánicos (in Spanish). Vision Net. p. 69. ISBN 978-84-9821-091-0. Retrieved 2024-08-24.
  7. ^ Garcia Prada, J.C.; Castejon Sisamon, C.; Rubio Alonso, H.; Meneses Alonso, J. (2014). Problemas resueltos de teoría de máquinas y mecanismos (in Spanish). Ediciones Paraninfo, S.A. p. 7. ISBN 978-84-283-3442-6. Retrieved 2024-08-24.
  8. ^ Appold, H. (1984). Tecnologia de Los Metales Para Profesiones Tecnico-Mecanicas. Edición especial para pryectos de formación profesional en el área de la cooperación técnica (in Spanish). Reverté. p. 364. ISBN 978-84-291-6014-7. Retrieved 2024-08-24.
  9. ^ Orionrobots.co.uk, ed. (26 February 2011). "Lego Specifications". Archived from the original on 23 August 2011. Retrieved 3 October 2011.
  10. ^ Dimensions Guide (13 December 2010). Dimensionsguide.com (ed.). "Dimensions of a Standard Lego Brick". Archived from the original on 5 September 2011. Retrieved 3 October 2011.
  11. ^ "UNESCO - Conocimientos y técnicas del arte de construir muros en piedra seca". ich.unesco.org (in Spanish). Retrieved 2021-04-16.
  12. ^ de Paula Mellado, F.; de Laboulaye, C.P.L. (1857). Diccionario de artes y manufacturas de agricultura, de minas, etc. Diccionario de artes y manufacturas, de agricultura, de minas, etc: descripción de todos los procedimientos industriales y fabriles (in Spanish). Mellado. p. 377. Retrieved 2024-08-25.
  13. ^ "Model of Van Doorne's CVT and metal pushing V-belt [28]". ResearchGate. Retrieved 2024-08-25.
  14. ^ Bonnier Corporation (July 1976). Popular Science. Bonnier Corporation. p. 57–. ISSN 0161-7370.
  15. ^ Bonnier Corporation (June 1980). Popular Science. Bonnier Corporation. p. 88–. ISSN 0161-7370.
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