brim.bicycle.rear_frames.RigidRearFrameMoore#

class brim.bicycle.rear_frames.RigidRearFrameMoore(name: str)#

Bases: RigidRearFrame

Rigid rear frame model based on Moore’s convention.

Attributes

auxiliary_handler

Auxiliary data handler of the model.

body

Rigid body representing the rear frame.

bottom_bracket

Point representing the center of the bottom bracket.

connections

Submodels out of which this model exists.

convention

descriptions

Descriptions of the attributes of the rear frame.

load_groups

Load groups of the connection.

name

Name of the object.

required_connections

required_models

saddle

Attachment representing the saddle.

steer_hub

Steer hub expressed in the rear frame.

submodels

Submodels out of which this model exists.

system

System object used to store the information of the model itself.

wheel_hub

Wheel hub for the rear wheel expressed in the rear frame.

Methods

__init__

Create a new instance of the model.

add_load_groups

Add load groups to the connection.

define_all

Define all aspects of the model.

define_connections

Define the submodels used by connections in the model.

define_constraints

Define the constraints on the model.

define_kinematics

Establish the kinematics of the objects belonging to the model.

define_loads

Define the loads that are acting upon the model.

define_objects

Initialize the objects belonging to the model.

from_convention

Create a model from a convention.

get_all_symbols

Get all declared symbols of a model.

get_description

Get description of a given object.

get_param_values

Get the parameter values of the rear frame.

set_plot_objects

Set the symmeplot plot objects.

to_system

Export the model to a single system instance.

__init__(name: str) → None#

Create a new instance of the model.

Parameters:: name (str) – Name of the model.

__new__(**kwargs)#

__repr__() → str#: Return repr(self).

__str__() → str#: Return str(self).

__weakref__#: list of weak references to the object (if defined)

add_load_groups(*load_groups: LoadGroupBase) → None#: Add load groups to the connection.

property auxiliary_handler: AuxiliaryDataHandler | None#: Auxiliary data handler of the model.

property body: RigidBody#: Rigid body representing the rear frame.

property bottom_bracket: Point#: Point representing the center of the bottom bracket.

property connections: tuple[brim.core.base_classes.ConnectionBase]#: Submodels out of which this model exists.

define_all() → None#: Define all aspects of the model.

define_connections() → None#: Define the submodels used by connections in the model.

define_constraints() → None#: Define the constraints on the model.

define_kinematics() → None#: Establish the kinematics of the objects belonging to the model.

define_loads() → None#: Define the loads that are acting upon the model.

define_objects() → None#: Initialize the objects belonging to the model.

property descriptions: dict[Any, str]#: Descriptions of the attributes of the rear frame.

classmethod from_convention(convention: str, name: str, *args, **kwargs) → ModelBase#: Create a model from a convention.

get_all_symbols() → set[sympy.core.basic.Basic]#: Get all declared symbols of a model.

get_description(obj: Any) → str#: Get description of a given object.

get_param_values(bicycle_parameters: Bicycle) → dict[Symbol, float]#: Get the parameter values of the rear frame.

property load_groups: tuple[brim.core.base_classes.LoadGroupBase]#: Load groups of the connection.

property name: str#: Name of the object.

property saddle: Attachment#: Attachment representing the saddle.

set_plot_objects(plot_object: PlotModel) → None#: Set the symmeplot plot objects.

property steer_hub: Hub#: Steer hub expressed in the rear frame.

property submodels: tuple[brim.core.base_classes.ModelBase]#: Submodels out of which this model exists.

property system: System | None#

System object used to store the information of the model itself.

Notes

This system object is used to store the information of the model itself. It does not by definition contain any information about the submodels or connections. Therefore, one cannot use this system object to form the equations of motion. Instead, one should use the to_system() method to get the system object representing the entire model.

to_system() → System#: Export the model to a single system instance.

property wheel_hub: Hub#: Wheel hub for the rear wheel expressed in the rear frame.

`auxiliary_handler`	Auxiliary data handler of the model.
`body`	Rigid body representing the rear frame.
`bottom_bracket`	Point representing the center of the bottom bracket.
`connections`	Submodels out of which this model exists.
`convention`
`descriptions`	Descriptions of the attributes of the rear frame.
`load_groups`	Load groups of the connection.
`name`	Name of the object.
`required_connections`
`required_models`
`saddle`	Attachment representing the saddle.
`steer_hub`	Steer hub expressed in the rear frame.
`submodels`	Submodels out of which this model exists.
`system`	System object used to store the information of the model itself.
`wheel_hub`	Wheel hub for the rear wheel expressed in the rear frame.

`__init__`	Create a new instance of the model.
`add_load_groups`	Add load groups to the connection.
`define_all`	Define all aspects of the model.
`define_connections`	Define the submodels used by connections in the model.
`define_constraints`	Define the constraints on the model.
`define_kinematics`	Establish the kinematics of the objects belonging to the model.
`define_loads`	Define the loads that are acting upon the model.
`define_objects`	Initialize the objects belonging to the model.
`from_convention`	Create a model from a convention.
`get_all_symbols`	Get all declared symbols of a model.
`get_description`	Get description of a given object.
`get_param_values`	Get the parameter values of the rear frame.
`set_plot_objects`	Set the symmeplot plot objects.
`to_system`	Export the model to a single system instance.