RU2489192C2 - Toy "spacecraft" - Google Patents

Abstract

FIELD: games.

SUBSTANCE: invention relates to developing games and visual aids used for demonstration purposes. Each of the spacecraft housings is made with a through screw hole and is fixed on the screw axis of the outer unit made of transparent material to form a pair of screw-nut with screw axis of the outer housing with the ability to move along it with propulsion it rotational movement with the nut. The nut is secured against rotation with one of the known methods, for example by means of a pin. In the side surfaces of the outer housing the grooves are made into which the protrusions enter, which are located on the side surfaces of the inner housings. The outer housing has a shape of a flat parallelepiped with rounded corners. Screw axes on which the inner housings are mounted are located in the outer housing in parallel and are in one plane at equal distances from one another. The grooves into which the projections enter are located on the side surfaces of inner housings, are located in the outer housing in planes perpendicular to this plane.

EFFECT: simplifying the design and improving manufacturability.

3 dwg

Description

The proposed technical solution relates to the field of toy models of space vehicles and can be widely used as a toy as such for children of preschool and primary school age, as well as a developmental toy for children of middle and senior classes of a comprehensive school, as a model of a vehicle for moving in time.

A known design of a toy model of a time-moving machine, see, for example, patent RU No. 2392997 published on 06/27/2010. It describes a toy model of a time-moving machine containing several toy spacecraft (SC), placed one in another, according to the scheme, a nesting doll, with each of the spacecraft inside it directed towards the opposite direction to the spacecraft external to it and fixed in a suspended state, for example, on springs. The walls of toy spacecraft are made of a transparent material, for example, glass or polyethylene, while tides are provided on them, made in the form of short bushes serving as guides for springs supporting internal devices in external devices relative to them.

The disadvantage of this toy is its low gaming attractiveness, as the need to use sufficiently rigid springs to fix the inner housings, in turn, leads to the practical immobility of the inner housings, that is, to the lack of visibility when simulating the operation of the device being the object of modeling.

The closest analogue of the claimed technical solution (prototype) is a toy - a model of a machine for moving in time, see application RU No.2011136896 published on December 20, 2011. The toy model described in this application is characterized in that it contains several toy bodies of spacecraft, each of which is made with a through screw hole and mounted on the screw axis of an external device made of transparent material, with the formation of a nut-screw pair with a screw axis of the external housing with the possibility of movement along she when informing her of the rotational movement of the nut, secured against rotation by one of the known methods, for example, using a pin, while grooves are made in the side surfaces of the outer case, which include protrusions located on the side surfaces of the inner cases.

Such a technical solution allows you to visually imagine the process of moving the internal hulls of the simulated spacecraft during operation. However, this design is quite difficult to manufacture.

The technical result of the invention is to simplify the design and increase the manufacturability.

The specified technical result is achieved by the fact that in the well-known toy "spacecraft" containing several toy bodies of spacecraft, each of which is made with a through screw hole and mounted on the screw axis of an external device made of transparent material, with the formation of a nut-screw pair with the screw axis of the outer case with the ability to move along it when the rotation of the nut is communicated to it with a nut, fixed from rotation by one of the known methods, for example, using a pin, at the same time, grooves are made in the lateral surfaces of the outer case, in which protrusions are located on the lateral surfaces of the inner bodies, according to the invention, the outer case is in the form of a flat parallelepiped with rounded corners, while the screw axes on which the inner bodies are fixed are located in the the housing in parallel and are in the same plane at equal distances from one another, and the grooves, which include the protrusions, are located on the side surfaces of the inner housings, are located in intermeshing housing in planes perpendicular to this plane.

Moving the inner hulls along the helical axis passing through the outer hulls allows you to clearly demonstrate the process of moving the inner hulls of the simulated spacecraft during operation. In this case, the helical axis is visually associated with the spiral of the spring and creates the appearance of the possibility of moving the inner housings in the axial direction inside the outer ones with their relative acceleration.

The accompanying drawings show: FIG. 1 is a general view of the proposed “spacecraft” toy, and FIG. 2 is a schematic section thereof. Figure 3 shows its view, indicated in figure 1 by arrow A. The numbers 1 on the drawings indicate the outer spacecraft bodies, the number 2 - the internal bodies, the number 3 - the axes on which the bodies are fixed with the possibility of moving along them when the rotational motion is communicated to them 2. When the axles 3 are rotated by nuts 4, secured against rotation by a pin 5 or by another known method, the bodies 2 forming nut-screw pairs forming 3 axes will move inside the body 1. The arrows with the letter V indicate the direction of motion of the internal spacecraft relative to the external spacecraft in some randomly selected point in time. In this case, the cylindrical sections 6 and 7 of the surfaces of the housing 1 serve as sliding bearings and provide rotation of the axles 3, and the protrusions 8 on the inner casings 2 included in the grooves 9 on the outer housing 1 of the spacecraft provide the movement of the first inside the second according to the principle of creepers.

An arrow with the letter B in FIG. 3 designates a plane in which are parallel to the axis of the hulls of the internal spacecraft. The drawing clearly shows that the grooves which include the protrusions located on the lateral surfaces of the inner housings are located in the outer housing in planes perpendicular to this plane.

This design of the toy allows you to clearly demonstrate the operation of the device of the simulated spacecraft during its movements in the gravitational field of a black hole, see RU 2010127903 A on 10/20/2010, some of which are expected to lead to the transfer of internal spacecraft into the inner region of the black hole after exit from which they hypothetically should be in the past or vice versa in the future, i.e. to make a time travel described in the application for “A Time Moving Machine”, see RU 2008137998 A 01/20/2009

At the same time, in comparison with the prototype, the proposed design is simpler and more technological, because making halves of one case and assembling such a toy is less time-consuming than making it from five separate outer cases.

The implementation of the claimed technical solution allows to reduce the cost of production of toys, which significantly increases the possibility of its use not only as a visual aid, but also as a developmental toy for children of middle classes of a secondary school and, finally, as a toy, as such, for preschool and primary school age.

Claims (1)

A toy "spacecraft" containing several toy bodies of spacecraft, each of which is made with a through screw hole and is mounted on the screw axis of an external device made of transparent material, with the formation of a nut-screw pair with a screw axis of the outer case with the possibility of movement along it when she is informed of the rotational movement by a nut secured against rotation by one of the known methods, for example, by means of a pin, grooves are made in the lateral surfaces of the outer casing , which includes protrusions located on the lateral surfaces of the inner housings, characterized in that the outer shell is in the form of a flat parallelepiped with rounded corners, while the screw axes on which the inner shells are fixed are parallel in the outer shell and are on the same plane distances from one another, and the grooves in which the protrusions enter are located on the lateral surfaces of the inner bodies, are located in the outer body in planes perpendicular to this plane.

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