DE1811353U - ROCKET TOY WITH SELF-OPENING. - Google Patents

Description

Alessandro Q u e r a o t t i in Turin, Italy. Rocket game with automatic opening.

There are, especially in the toy area, in demand rockets, which carry out a special operation when they reach the apex of the path, in particular pull open, in order to soft clay to eröe objects contained in her body clear. When the rocket is opened, an un- dependent item, such as a parachutist or $ Device to slow down rocket descent (parachute, Hnbschraub $ ö. Like.) Escape. The automatic opening of the Missile was previously achieved by taking advantage of the rocket overturn the return path or by temporally acting devices, which, however, only cause an opening that coincides roughly with the reaching of the apex of the path, since the opening point with the rocket's initial velocity and also the approach driving force is in Zutaamenhang. The object of the next innovation is a missile that is equipped with an automatic opening device * This occurs when approaching the Bahnseheitel, IB by gravity, there. Moment of inertia and aerodynamic Sin flows, in effect. Such an automatic opening gate direction Is very simple, works in a timely and reliable manner in an area that is extremely close to the actual apex of the path.

The yellow of the innovation is the rocket with an organ exposed to the effects of gravity and inertia as well as the aerodynamic forces acting during movement and the balancing force of a spring or other suitable elastic element. This is waa- kind of built to be a more or less accurate measure of the home Organ self applied resulting force to form. the Dimensions are such that when the apex is reached the The force of attraction of the elastic organ predominates and the wa- gel-like organ adjusted, whereby a bolt or the like of the on- closable rocket part is opened. The balance organ points a short era to which the balancing spring force acts, as well as one arranged outside the missile housing longer arm on which aerodynamic influences act and which is preferably equipped with a serodynamic wing for this purpose. In addition, both arms are subject to the forces of gravity and inertia.

An example of a development of one with an automatic opening device provided missile is shown in the drawings, namely Fig.1 show the Rocket when climbing sound the side of the bolt, fig. 2 a section along line IN-IN in Fig. 1, Fig. 3 is a front view, Fig. 4 is a section Line IV-IV in Fig.1, Fig. 5 and 6 two views of the connecting members between the unlockable and the fixed rocket part, Fig. 7 a tail unit and its Fasteners to missile housing and 8 shows part of the bolt of the unlockable rake portion.

The rocket consists of a housing 1 to which a flap 3 is hinged on the rear side at 2. This is held in the locked position by a bolt 4, which is subjected to the action of the balancing elastic element 5, which can be a rubber band and has a pin 6, which a pin 7 on the smaller arm at of the weighing element 8 locks. These. is mounted at 9 on the rocket housing 1. The housing 1 has a tip 10 on top Housing 1 and the flap 3 have ins- tail units 11, between which the longer arm of the balance organ 8 ends, which has a wing 12, the elastic element 5 tends to open the bolt 4 and thereby the longer arm of the organ 8 upwards in the dashed line Swing position.

When the rocket has been launched and blows up through the air at high speed, the air resistance slowing down the movement, the inertial forces of the bolt 4 and of the smaller arm 81 tend to lean against the housing 1 with the longer arm of the balance-like element 8 hold, while the inertial forces of the said organ tend to swing it away, but they work with a small lever arm. On the other hand, the air resistance acts on the longer arm and holds it back, especially if the arm is provided with the wing 12. The missile travels accordingly with the longer arm of the organ 8 ajar further. When reaching the At the apex of the path, the rocket is in an inverted position Location. Because there is no or almost no speed, the aerodynamic effects cease, whereby gravity, since it is a body thrown freely into space acts is void. In these circumstances there is only that Force of the elastic element 5 effective, which the bolt 4 releases so that the missile housing 1 opens. The contents and / or the accessories intended for braking the fall are then thrown out of this. The opening is necessary near the apex of the flight path due to the particular aerodynamic, inertia and gravity state in which the rocket is at this point in time.

The individual rocket components and organs can be very diverse Have shapes, however, certain essential components are shown in the drawings. As can be seen from Figures 1, 2 and 4, the bolt consists of a lamella 4, the sound of the wing 6, which the weighing device 8 blocks, protrudes. The lamella 4 is guided by rivets 3a, 3b and limited by these in the movement. Then it will be the elastic element 5 is hooked on the latch 4 and on the flap 3 at 3d. It can be hooked onto various dowels 3d for tension regulation.

According to Figures 5 and 6, the rear side of the housing 1 and the flap 3 designed so that they form incomplete joints 1c, 3c, the then thanks to the elasticity of the material used by snapping one of them connecting pin 2, Fig. 2, are coupled.

As FIG. 7 shows, each tail fin 11 has springs 11a, 11b, which are suitable in parts of the housing 1 or to snap the flap 3 to the tail stabilizer ia in the right position. The flail 12 of the horizontal organ 8 is located parallel to its longer arm, so that its more aerodynamic Buoyancy when swinging the arm of Tom housing 1 quickly takes, whereby termies become so that disturbing causes the rake Let the gate open at the stipulated time. the Tip 10 is preferably made of semi-elastic material to dampen the recoil of the missile. It is held on the upper part of the housing 1 by latching. The housing 1 can have inner ribs 1 a, 1 b, which can be seen in the missile chamber and serve to keep the missile contents in the correct position during flight. The ribs la can also align the housing 1 and the flap 3 when locking the rocket.

Claims (7)

Protection claims: 1. Rocket toy with automatic opening at Reaching a point close to the apex of its trajectory, characterized in that that there is a bolt (4) of the unlockable housing (I) and on this a horizontal one Organ (8) having an outside of the rocket housing of gravity, the Inertial forces and the aerodynamic forces developing during the rocket's ascent Has longer arm exposed to forces. 2. Missile according to claim 1, characterized in that it consists of one Housing (1) and a hinged flap (3) is made up by a spring-loaded bolt (4) is locked with a pin (6) the smaller arm (8t) of the hinged weighing device (8) blocks the longer arm extends outside the missile housing (l). 3. Missile according to claim 2, characterized in that the longer Arm of the balance organ (8) one arranged against the end of this arm and towards him parallel aerodynamic wing (12) carries. 4. Missile according to claim 1, characterized in that the housing (1) has an attached tip (10) and nth tail fin (11). 5. Missile according to claim 4, characterized in that each tail unit (11) has feathers (lla, llb) which are suitable, elastic in wedge holes of the missile housing (1) snap into place. 6. Missile according to claim 2, characterized in that the bolt (4) consists of a lengthwise movable lamella with a limited path and has a pin (6) cooperating with the weighing element (8). 7. Missile according to claim 2, characterized in that the lower Parts of the housing (1) and the flap (3) in the manner of an incomplete hinge are designed so that they snap by means of an elastic. hookable Pin (2) can be connected.