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Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering PDF Download

Introduction: 

Types of fasteners 

A machine or a structure is made of a large number of parts and they need be joined suitably for the machine to operate satisfactorily. Parts are joined by fasteners and they are conveniently classified as permanent or detachable fasteners. They are often sub- divided under the main headings as follows:

Permanent fasteners: Riveted joints
Welded joints

Detachable joints: Threaded fasteners – screws, bolts and nuts, studs.
Cotter joints
Knuckle joints

 

Pin Joints 

These are primarily used to prevent sliding of one part on the other, such as, to secure wheels, gears, pulleys, levers etc. on shafts. Pins and keys are primarily used to transmit torque and to prevent axial motion. In engineering practice the following types of pins are generally used.

(a) Round pins (b) Taper pins (c) Dowel pins (d) Split pins

Round and taper pins are simple cylindrical pins with or without a taper and they offer effective means of fastening pulleys, gears or levers to a shaft. It may be fitted such that half the pin lies in the hub and the other half in the shaft as shown in figure-4.1.2.1 (b). The pin may be driven through the hub and the shaft as in figure- 4.1.2.1 (c) or as in figure- 4.1.2.1 (d). These joints give positive grip and the pins are subjected to a shear load. For example, for the shaft in the assembly shown in figure- 4.1.2.1 (c), the pin is under double shear and we have

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

where d is the diameter of the pin at hub-shaft interface, τ is the yield strength in shear of the pin material and T is the torque transmitted.

 

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering
A taper pin is preferred over the straight cylindrical pins because they can be driven easily and it is easy to ream a taper hole.

Dowel pins

These are used to keep two machine parts in proper alignment. Figure- 4.1.2.2 demonstrates the use of dowel pins. Small cylindrical pins are normally used for this purpose.

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

 

Split pins 

These are sometimes called cotter pins also and they are made of annealed iron or brass wire. They are generally of semi-circular cross section and are used to prevent nuts from loosening as shown in figure- 4.1.2.3. These are extensively used in automobile industry

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

 

Keys Steel

keys are widely used in securing machine parts such as gears and pulleys. There is a large variety of machine keys and they may be classified under four
broad headings:
Sunk keys, flat keys, saddle keys and pins or round keys

Sunk keys may be further classified into the following categories:
(a) Rectangular sunk keys
(b) Gib head sunk keys
(c) Feather keys
(d) Woodruff keys

Rectangular sunk keys are shown in figure- 4.1.3.1. They are the simplest form of machine keys and may be either straight or slightly tapered on one side. The parallel side is usually fitted into the shaft.

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

The slots are milled as shown in figure- 4.1.3.1(a). While transmitting torque a rectangular sunk key is subjected to both shear and crushing or bearing stresses. Considering shear we may write Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering where τ is the yield shear stress of the key material, D the shaft diameter and T is torque transmitted. Considering bearing stress we may write Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineeringwhere σbr is the bearing stress developed in the key. Based on these two criteria key dimensions may be optimized and compared with the standard key dimensions .

The gib head keys are ordinary sunk keys tapered on top with a raised head on one side so that its removal is easy. This is shown in figure- 4.1.3.2

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

 

Some feather key arrangements are shown in figure- 4.1.3.3. A feather key is used when one component slides over another. The key may be fastened either to the hub or the shaft and the keyway usually has a sliding fit.

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

A woodruff key is a form of sunk key where the key shape is that of a truncated disc, as shown in figure- 4.1.3.4. It is usually used for shafts less than about 60 mm diameter and the keyway is cut in the shaft using a milling cutter, as shown in the figure- 4.1.3.4. It is widely used in machine tools and automobiles due to the extra advantage derived from the extra depth.

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

Lewis keys, shown in figure- 4.1.3.5, are expensive but offer excellent service. They may be used as a single or double key. When they are used as a single key the positioning depends on the direction of rotation of the shaft. For heavy load two keys can be used as shown in figure- 4.1.3.5 (b)

 

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

A flat key, as shown in figure- 4.1.3.6 is used for light load because they depend entirely on friction for the grip. The sides of these keys are parallel but the top is

slightly tapered for a tight fit. Theses keys have about half the thickness of sunk keys.

Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical EngineeringTypes of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering

A saddle key, shown in figure- 4.1.3.7, is very similar to a flat key except that the bottom side is concave to fit the shaft surface. These keys also have friction grip and therefore cannot be used for heavy loads. A simple pin can be used as a key to transmit large torques. Very little stress concentration occurs in the shaft in these cases. This is shown in figure- 4.1.2.1 (b).

 

The document Types of Fasteners: Pins & Keys | Design of Machine Elements - Mechanical Engineering is a part of the Mechanical Engineering Course Design of Machine Elements.
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FAQs on Types of Fasteners: Pins & Keys - Design of Machine Elements - Mechanical Engineering

1. What are the different types of pins used in mechanical engineering?
Ans. In mechanical engineering, there are various types of pins used, including dowel pins, taper pins, spring pins, clevis pins, and cotter pins. Each type of pin serves a different purpose and has specific design and dimensional characteristics.
2. What are the main functions of keys in mechanical engineering?
Ans. Keys are used in mechanical engineering to transmit torque between rotating shafts and the components mounted on them. They prevent relative rotation and ensure a secure connection. Keys can also provide a means for easy disassembly and adjustment of components.
3. How are dowel pins different from other types of pins?
Ans. Dowel pins are designed to precisely align two or more components in a machine assembly. Unlike other types of pins, dowel pins do not carry any load or transmit torque. Their main function is to maintain accurate positioning and prevent misalignment.
4. What are the advantages of using spring pins?
Ans. Spring pins, also known as roll pins, offer several advantages in mechanical engineering applications. They provide a secure and durable connection, resist loosening due to vibration, and allow for easy installation and removal. Spring pins also distribute stress evenly, reducing the risk of component damage.
5. How do clevis pins differ from other types of pins in terms of their design?
Ans. Clevis pins have a unique design with a cross-hole near one end and a head on the other end. This allows them to be used with a clevis, which is a U-shaped coupling device. Clevis pins are commonly used in applications where a rotational movement is required, such as in linkages and control systems.
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