ITMI20081306A1 - JOINT FOR MACHINE TOOLS - Google Patents

Description

SIMULATION APPARATUS FOR SAILBOATS

The present invention relates to a simulation apparatus in particular for sailboats of the type specified in the preamble of the first claim.

Some types of simulation apparatuses for sailing boats are currently known, for example described in the patents US-A-3 597 856 and US-A-3 693 264. They are, in fact, used in the seasons and in the places where problematic to use the real sailboat in the water, ie in the sea or in the lakes. Said simulation apparatuses mainly consist of virtual systems. They therefore include screens, controls and mobile platforms that simulate the reactions and behavior of a sailboat in the water.

Said virtual simulation apparatuses have some important drawbacks.

In fact, as is known, virtual devices cannot give the user the same sensation as a real device.

Although sophisticated, in fact, the software presents approximations and evaluations that do not coincide with the situations and reactions of a real boat.

Furthermore, the user's sensations are attenuated and altered by the awareness of being in a virtual system.

Consequently, virtual simulation apparatuses are not fully suited to teaching a novice or practicing an amateur.

Virtual apparatuses are finally very expensive and complicated.

Some mechanical devices were then created that exploit the force of the wind and some elastic elements designed to partially simulate the behavior

Claims (9)

CLAIMS 1. Joint (1) for machine tools (20), adapted to join a fixed part (21) and an end part (22) of said machine tool (20), said end part (22) defining a work axis (20a ), said joint (1) comprising: a first portion (2), integral with said fixed part (21), a second portion (3), integral with said end part (22), and connection means (4) of said first portion (2) to said second position (3) adapted to allow at least partial translation of said second portion (3) with respect to said first portion (2) in a translation plane (1a) perpendicular to said work axis (20a ) and to define a stable equilibrium position of said portions (2, 3) characterized by the fact that said first and second portion (2, 3) comprise surfaces (2a, 3a) facing and mutually movable in a direction parallel to said translation plane ( 1a) and said connection means (4) are connected partially integrally to said first portion ( 2) and partially to said second portion (3) and comprise elements for returning said first and second portions (2, 3) towards said stable equilibrium position. Joint (1) according to one or more of the preceding claims, wherein said connecting means (4) comprise magnets (4a). Joint (1) according to claim 3, wherein said magnets (4a) are arranged along a circumference at constant angular distances. 4. Joint (1) according to one or more of the preceding claims, comprising an anti-friction bearing (10) along said plane of translation (1a) between said first portion (2) and said second portion (3). 5. Joint (1) according to claim 5, wherein said anti-friction bearing (10) is constituted by a plurality of balls (11) rotatable along axes parallel to said translation plane (1a). 6. Joint (1) according to one or more of the preceding claims, in which said connection means (4) comprise locking means (5) of said drive along said translation plane (1a), designed to prevent said translation from exceeding values limit. 7. Joint (1) according to claim 6, wherein said locking means (5) comprise a pin (6), part of one of said portions (2, 3), movable in a seat (7), part of the other of said portions (3, 2). Machine tool (20) comprising a joint (1) according to one or more of the preceding claims. Machine tool (20) according to claim 9, consisting of a balancing machine for armatures (30) of electric motors.