Spur gears are a cylindrical shaped toothed component used in industrial equipment to transfer mechanical motion as well as control speed, power, and torque. These simple gears are cost-effective, durable, reliable and provide a positive, constant speed drive to facilitate daily industrial operations.
At Grob, Inc., we manufacture our own tooling, allowing us the flexibility to fabricate standard or custom cold rolled spur gears designed to meet exact specifications across a wide range of industrial applications.
- Description: This manual covers the necessary design criteria for 20 degree straight bevel gears systems. The Tables of Tooth Proportions give the Linear and Angular Dimensions for generated gears and pinions operating at right angles in either speed-decreasing or speed-increasing drives.
- Gear milling –tollerances and surface finish Type of cut IT Ra Form milling –shape mill 9 –11 3,2 - 6,3 End milling 8 - 9 3,2 - 6,3.
- Ing handbooks and in publications provided by Gleason Corp., for example. Gleason publications include most of the informa-tion required by the gear designer to select a satisfactory pair of bevel gears. The pitch cone apex-to-crown value is determined by a formula that is a function of the pitch diameter, pitch angle.
What Is a Spur Gear?
Wheel and pinion designs to the widely used Gleason system are covered, that is, Klingelnberg and Oerlikon. Various types of differential are described along with interlock systems which prevent the selection of more than one gear at a time. It contains a wide coverage of gear failures, their causes and requirements to prevent.
Spur gears are one of the most popular types of precision cylindrical gears. These gears feature a simple design of straight, parallel teeth positioned around the circumference of a cylinder body with a central bore that fits over a shaft. In many variants, the gear is machined with a hub which thickens the gear body around the bore without changing the gear face. The central bore can also be broached as to allow the spur gear to fit onto a spline or keyed shaft.
Gleason Gear Ratios
Spur gears are used in mechanical applications to increase or decrease the speed of a device or multiply torque by transmitting motion and power from one shaft to another through a series of mated gears.
Important Spur Gear Terms and Definitions
The design and construction of a spur gear significantly influence its performance. To do their jobs effectively and efficiently, they need to be fabricated from high-quality materials and to precise dimensions. The dimensional measurements of each feature are integral to how a specific gear functions. As such, when an industry professional requires a new spur gear design or a replacement spur gear, it is imperative that they are familiar with the terms for each gear part and their respective measurements to ensure clarity and accuracy in the production or purchase order.
Some commonly used spur gear terms include:
. Pitch Circle: The circle derived from a number of teeth and a specified diametral pitch. The circle in which tooth spacing or profiles are established from which tooth proportions are constructed.
. Diametral Pitch: Ratio of the number of teeth to the pitch diameter.
. Pitch Diameter: Is the diameter of the pitch circle. This is where a spur gears angular velocity is measured. This is also a critical component for determining center distances between mating spur gears.
. Center Distance: The distance between two gears, measured from the center shaft of one gear to the center shaft of the mating gear. This can be found roughly by taking the radius of each spur gears pitch circle and adding them together.
. Module: The ratio of the reference diameter of the gear divided by the number of teeth. Module is the metric equivalent to diametral pitch.
. Addendum: The height by which a tooth projects beyond the pitch circle.
. Dedendum: The depth of a tooth space below the pitch circle. Generally greater than the addendum of the mating gear to provide clearance.
. Outside Diameter: The diameter of the addendum circle, or the circle along the outermost points of a spur gear’s teeth. This measurement is the largest diameter spur gears have.
. Root Diameter: The diameter at the base of the tooth space.
. Pressure Angle: The angle at a pitch point between the line of pressure which is normal to the tooth surface, and the plane tangent to the pitch surface.
. Whole Depth: The total depth of tooth space, equal to the addendum plus the dedendum.
Spur Gears Applications
Spur gears are used to transfer motion and power from one shaft to another in a mechanical setup. This transference can alter machinery’s operating speed, multiply torque, and allow for the fine-tuned control of positioning systems. Wineskin mac reddit. Their design makes them suitable for lower speed operations or operational environments with a higher noise tolerance.
Some of the typical industrial applications include:
- Transmissions
- Conveyor systems
- Speed reducers
- Engines and mechanical transportation systems
- Gear pumps and motors
- Machining tools
Advantages
Spur gears provide several benefits to industrial applications and processes, including:
- Simplicity. Spur gears feature a simple, compact design that makes them easy to design and install, even in limited or restricted spaces.
- Constant Speed Drive. These gears increase or decrease shaft speed with a high degree of precision at a constant velocity.
- Reliability. Unlike other power and motion transmission components, spur gears are unlikely to slip during operation. Additionally, their durability decreases their risk of premature failure.
- Cost-Effectiveness. The simplicity of their design also allows for greater manufacturability, making them less expensive to fabricate and purchase even with highly specific or customized dimensions.
- Efficiency. Spur gear systems have power transmission efficiencies between 95% and 99% and can transfer large amounts of power across multiple gears with minimal power loss.
Standard and Custom Spur Gears at Grob, Inc.
At Grob, Inc., we specialize in fabricating standard and custom spur gears to suit every industrial process and application. We offer a range of dimensional capabilities (such as outer diameters up to 6 inches) and material options (including aluminum and mild to medium carbon steel) to meet our customers’ exact needs.
. Standard/Stock Spur Gears
Our facility is equipped to produce standard spur gears with the following characteristics:
- Cold rolled aluminum or carbon steel construction materials with high-quality surface finishes
- AGMA 6-8 quality
- 5° or 20° pressure angles
- Diametral pitches of 6–48 teeth per inch
- Modules of 0.6–4 millimeter per teeth
- Outside diameters of up to 6 inches
.Custom Spur Gears
If you need a custom spur gear, our facility can deliver you a customized solution tailored to your unique specifications. Our custom spur gear capabilities allow for modifications to the following design elements: Office 2016 for mac how to activate with product key.
- Major diameter, or outside diameter
- Minor diameter, or inside diameter
- Backlash, which allows for lubrication and thermal expansion without significantly altering the functionality of the machinery
Spur Gear Production – Our Cold Rolling Process:
To produce our spur gear stock, we employ a custom cold roll forming process—called Grob Rolling. This process allows for stronger gear teeth with superior surface.
Spur Gears That Meet Your Specifications
If your facility needs high performance, durable spur gears, Grob, Inc. is here to help. Our expert team of engineers and technicians can provide standard or produce custom spur gears based on your design files to suit the exact specifications of your application.
For more information on our standard or custom cold forming capabilities or to receive a quote, contact us today.
Gear Design Lost Saga
Fundamentals of Bevel Gear Design
Basic understanding of the design elements of bevel and hypoid gears. Gear theory, terminology, selection of gear size, tooth design parameters and cutting methods. Exercises in calculating gear dimension sheets, the use of Gleason time sharing computer programs and the evaluation of resulting stress data. Trainees may bring a specific design problem for an existing or future application. Data for any specific problem should include speed, torque loads, size restrictions, deflections etc.
Gleason Gear Design Manual Download
Topics
- Gear nomenclature.
- Theory of generation.
- Cutting processes and tools.
- Explanation of dimension sheets.
- Approximating gear size.
- Calculation of stresses and gear life.
- Gear blank dimensions and tolerances.
- Lubrication and assembly.
- Types of failures.
- Calculation of dimension sheet using Gleason computer programs.
Upon Completion
A certificate is issued with successful completion.