Engineering Gear Models
As we are one of the leading manufacturers and exporters of laboratory equipments, we have also extended our range to Engineering Gear Models. All our equipments are made under strict quality controlled manufacturing unit. The components used in every Engineering Gear Models are of highest quality to ensure a better performance and longer life span of the product.
Single Stage Spur Gears
Model EGM001
1. The spur gear is a non-complex kind of gear model specifically applied to conduction of rotary motion between parallel shafts. The spur gear is stands the first for the related performance operations except high speeds, loads, and ratios direct towards other options. View Details
1. The spur gear is a non-complex kind of gear model specifically applied to conduction of rotary motion between parallel shafts. The spur gear is stands the first for the related performance operations except high speeds, loads, and ratios direct towards other options. View Details
Two Stage Spur Gears
Model EGM002
Two stage spur gears are widely used in various applications of engineering labs. These are made from stainless steel. View Details
Two stage spur gears are widely used in various applications of engineering labs. These are made from stainless steel. View Details
Three stage Spur gears
Model EGM003
In three stage spur gear model, three gears are mounted on a base to perform the necessary action. All its components are made from stainless steel. View Details
In three stage spur gear model, three gears are mounted on a base to perform the necessary action. All its components are made from stainless steel. View Details
Single Stage Bevel Gears
Model EGM004
1. Single Stage Bevel gears consist of two gear wheels work at an angle of 90 degrees. The gears are cone-shaped and have cut teeth aim to transfer motion to a new angle. View Details
1. Single Stage Bevel gears consist of two gear wheels work at an angle of 90 degrees. The gears are cone-shaped and have cut teeth aim to transfer motion to a new angle. View Details
Single Stage Helical Gears
Model EGM005
1. Single stage Helical Gear models comprise of teeth on cut at an angle to the face of the gear. When two teeth on a helical gear system come in contact, it starts at one end of the tooth and gradually spreads as the gears rotate, until the two teeth are in full arrangement. View Details
1. Single stage Helical Gear models comprise of teeth on cut at an angle to the face of the gear. When two teeth on a helical gear system come in contact, it starts at one end of the tooth and gradually spreads as the gears rotate, until the two teeth are in full arrangement. View Details
Single Stage Spiral Gears
Model EGM006
1. A spiral is a bevel gear with helical teeth. 2. The main application of this is in a vehicle differential, where the direction of drive from the drive shaft must be turned 90 degrees to drive the wheels View Details
1. A spiral is a bevel gear with helical teeth. 2. The main application of this is in a vehicle differential, where the direction of drive from the drive shaft must be turned 90 degrees to drive the wheels View Details
Gear Set
Model EGM007
We also provide complete gear set models for demonstration of different types of gears. The set includes four Types of gear models i.e. Spur Gear, Bevel Gears, Helical Gears and Spiral Gears; it comes mounted on a polished wooden board. View Details
We also provide complete gear set models for demonstration of different types of gears. The set includes four Types of gear models i.e. Spur Gear, Bevel Gears, Helical Gears and Spiral Gears; it comes mounted on a polished wooden board. View Details
Herringbone Gears
Model EGM008
Herringbone gears are double helical gears designed to transmit power through parallel or, less commonly used perpendicular axes. View Details
Herringbone gears are double helical gears designed to transmit power through parallel or, less commonly used perpendicular axes. View Details
Displacement Fixing Moments- Engineering Lab Training Systems
Model HV-EXP4862
Features Self-contained model Immediate analogue solution Effective teaching aid Illustrates fixing moments due to displacement of a support For lecture or laboratory Three year warranty Range of Experiments Measurement of fixed end moments due to vertical displacement of a support for a remote end fixed and free Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. A set of thick plates is provided to create a vertical displacement of a beam support. The set of weights needed for the experiment is included. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results.. View Details
Features Self-contained model Immediate analogue solution Effective teaching aid Illustrates fixing moments due to displacement of a support For lecture or laboratory Three year warranty Range of Experiments Measurement of fixed end moments due to vertical displacement of a support for a remote end fixed and free Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. A set of thick plates is provided to create a vertical displacement of a beam support. The set of weights needed for the experiment is included. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results.. View Details
Fixed End Moments- Engineering Lab Training Systems
Model HV-EXP4863
Features Self-contained model Immediate analogue solution Effective teaching aid Illustrates fixed end moments For lecture or laboratory Three year warranty Range of Experiments Measurement of fixed end moments for a point load anywhere on the beam Measurement of changes when one end is pinned Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. A set of thick plates is provided to create a vertical displacement of a beam support. The set of weights needed for the experiment is included. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results. View Details
Features Self-contained model Immediate analogue solution Effective teaching aid Illustrates fixed end moments For lecture or laboratory Three year warranty Range of Experiments Measurement of fixed end moments for a point load anywhere on the beam Measurement of changes when one end is pinned Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. A set of thick plates is provided to create a vertical displacement of a beam support. The set of weights needed for the experiment is included. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results. View Details
Lecturers' Demonstration Kit- Engineering Lab Training Systems
Model HV-EXP4864
Features Cost effective teaching aid Enables seven models to be built Each model self contained Excellent introduction to the theory for redundant structures Three year warranty Description See the individual experiments. All the parts to make the models are provided and the set of weights needed for the experiments is included. A complete set of Lecturer's Instruction Manuals and students laboratory sheets is supplied. There is also a Manual explaining the construction of each of the seven models.. View Details
Features Cost effective teaching aid Enables seven models to be built Each model self contained Excellent introduction to the theory for redundant structures Three year warranty Description See the individual experiments. All the parts to make the models are provided and the set of weights needed for the experiments is included. A complete set of Lecturer's Instruction Manuals and students laboratory sheets is supplied. There is also a Manual explaining the construction of each of the seven models.. View Details
Maxwell-Betti Theorems
Model HV-EXP4865
Features Self-contained model Immediate analogue solution Effective teaching aid Demonstrates the complete reciprocal equality of forces and displacements For lecture or laboratory Three year warranty Range of Experiments Measurement of deflections and rotations for alternative sets of loads and moments at reciprocal locations on a beam Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. Dual deflection scales on adjustable vertical posts enable displacements to be measured and seen at 10 m distance. The set of weights needed for the experiment is included. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results.. View Details
Features Self-contained model Immediate analogue solution Effective teaching aid Demonstrates the complete reciprocal equality of forces and displacements For lecture or laboratory Three year warranty Range of Experiments Measurement of deflections and rotations for alternative sets of loads and moments at reciprocal locations on a beam Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. Dual deflection scales on adjustable vertical posts enable displacements to be measured and seen at 10 m distance. The set of weights needed for the experiment is included. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results.. View Details
Moment Distribution Coefficient- Engineering Lab Training Systems
Model HV-EXP4866
Features Self-contained model Immediate analogue solution Effective teaching aid Illustrates moment distribution coefficients and carry over For lecture or laboratory Three year warranty Range of Experiments Measurement of moment distribution coefficients for a remote end fixed and free Measurement of carry over factor to a fixed end Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. The set of weights needed for the experiment is included. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results.. View Details
Features Self-contained model Immediate analogue solution Effective teaching aid Illustrates moment distribution coefficients and carry over For lecture or laboratory Three year warranty Range of Experiments Measurement of moment distribution coefficients for a remote end fixed and free Measurement of carry over factor to a fixed end Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. The set of weights needed for the experiment is included. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results.. View Details
Muller-Breslau End Moment- Engineering Lab Training Systems
Model HV-EXP4867
Features Self-contained model Immediate analogue solution Effective teaching aid Demonstrates how model analysis provides redundant forces For lecture or laboratory Three year warranty Range of Experiments Measurement of the redundant fixed end moment in a two span continuous beam Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. Dual deflection scales on adjustable vertical posts enable displacements to be measured and seen at 10 m distance. One end support has a screw straining device for imposing a fixed rotation. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results.. View Details
Features Self-contained model Immediate analogue solution Effective teaching aid Demonstrates how model analysis provides redundant forces For lecture or laboratory Three year warranty Range of Experiments Measurement of the redundant fixed end moment in a two span continuous beam Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam on swivelling bearings which can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Rotation of the beam at the support is shown by a large coloured pointer moving across a dual scale, the coarse one being readily seen at 10 m distance. Dual deflection scales on adjustable vertical posts enable displacements to be measured and seen at 10 m distance. One end support has a screw straining device for imposing a fixed rotation. This equipment is part of a range designed to both demonstrate and experimentally confirm basic engineering principles. Great care has been given to each item so as to provide wide experimental scope without unduly complicating or compromising the design. Each piece of apparatus is self-contained and compact. Setting up time is minimal, and all measurements are made with the simplest possible instrumentation, so that the student involvement is purely with the engineering principles being taught. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and typical test results.. View Details
Muller-Breslau Reactions- Engineering Lab Training Systems
Model HV-EXP4868
Features Self-contained model Immediate analogue solution Effective teaching aid Demonstrates how model analysis provides redundant forces For lecture or laboratory Three year warranty Range of Experiments Measurement of the redundant reactions at the supports in a two span continuous beam Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam. Swivelling bearings can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Dual deflection scales on adjustable vertical posts enable displacements to be measured and seen at 10 m distance. A set of thick plates is supplied to enable a forced displacement to be produced at one end and the internal supports. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and theory. Although the equipment is designed primarily for use by lecturing staff, the manual has a section provided for individual student use.. View Details
Features Self-contained model Immediate analogue solution Effective teaching aid Demonstrates how model analysis provides redundant forces For lecture or laboratory Three year warranty Range of Experiments Measurement of the redundant reactions at the supports in a two span continuous beam Description The model is built on a pressed steel base with plastic piers that support a single span flexible steel beam. Swivelling bearings can accommodate horizontal movement while enabling external moments to be applied and measured. An inserted locking pin makes a fixed end. Dual deflection scales on adjustable vertical posts enable displacements to be measured and seen at 10 m distance. A set of thick plates is supplied to enable a forced displacement to be produced at one end and the internal supports. A complete instruction manual is provided describing the apparatus, its application, experimental procedure and theory. Although the equipment is designed primarily for use by lecturing staff, the manual has a section provided for individual student use.. View Details