gears gear basics. types of gears spur gear racks ring gear (internal)

Gears

Gear Basics

Types of Gears

Spur Gear

Spur Gear

Racks

Ring Gear (Internal)

Types of Gears

Worm Gear

Straight Bevel GearsMiter Gear

Spiral Bevel Gears

Gear Terminology

Basic Gear DesignCommercially available gears are specified on drawings and are used whenever possible. Stock gears are available in a wide range of forms and sizes. Gear design includes the selection of the gear sizes, pitch diameter, center to center distance, size and form of the teeth, shaft diameter, horsepower rating, speed rations, and appropriate heat treatment and materials.

In actual practice, the designer provides the detail drafter with only a few basic dimensions of the required gears. The designer may obtain this data from actual engineering calculations or from manufacturer's catalogs. All other dimensions needed in the construction of the working drawings are usually worked out by the detail drafter.

Basic Gear Design

CENTER TO CENTER DISTANCES OF TWO FRICTION WHEELS

Basic Gear Design

CENTER TO CENTER DISTANCES OF TWO GEARS

Basic Gear DesignDiametral Pitch (P)The diametral pitch (P) is a ratio equal to the number of teeth (N) on the gear per inch of pitch diameter (D).

Diametral Pitch (P) = Number of Teeth (N)/ Pitch Diameter (D)

Number of teeth (N)The number of teeth (N) is the number of gear teeth on the gear or pinion.

Number of teeth (N) = Diametral Pitch (P) x Pitch Diameter (D)

Pitch Diameter (D)The pitch diameter (D) is an imaginary circle that corresponds to the circumference of the friction gear from which thespur gear is derived.

Pitch Diameter (D) = Number of teeth (N)/ Pitch Diameter (P)

Center to Center Distance (C to C)The center to center distance (C to C) is the distance between the centers of the two friction wheels

C to C = (Pitch Diameter of Gear (D1) + Pitch Diameter of Pinion (D2))/2

C to C = ((D1) + (D2))/2

Basic Gear DesignGear Ratio (M)When two friction wheels of different diameter are placed together a point of the driver gear will travel the samedistance as a point of the driven gear. Therefore, the number of teeth and the speed of the gears are directlyproportional to its pitch diameter.

M1 = D1 = N1 = RPM2M2 D2 N2 RPM1

Linear Velocity (V)Linear velocity is the distance that a given point on the friction wheel travels during a certain time period.

Linear Velocity (V) = (pi) x Pitch Diameter of Gear (D) x RPM

Basic Gear Design

Sample Problem:

Complete the missing information on the gear train problem.

M(A) = 2 M(B) = 1

M(C) = 3 M(D) = 2