KR200416786Y1 - Rocket launcher capable of controlling the launching angle - Google Patents

Abstract

The present invention relates to a learning rocket launch device using air and hydraulic pressure as a propulsion power. In particular, it relates to a learning rocket launching device that can freely adjust the firing angle to allow rocket launching, not only vertical launching, but also horizontal flight launching and angle adjusting launching in one launching device.

The launch device of the learning rocket is the inventor's patent No. 242676, where the angle adjustment is adjusted by moving up and down along the scale support, but in the case of an obtuse launch of more than 45 degrees, it is actually difficult to fix when launching and precisely adjusting the launch angle. It was difficult. By improving these shortcomings, Practical Registration No. 361276 allows the adjustment of any firing angle by installing a fixed pin on the outside in the case of an obtuse angle shot of the lower part of the launcher so that the angle adjustment is more free. However, if the situation of the ground on which the launch device is installed is not good, the change of the firing angle occurred as the fixing pin moved easily.

The present inventors installed a rotating support for fixing the lower plate freely rotating as shown in Figure 2 in Practical Use No. 361276, and the coupler is installed to rotate freely on both sides of the lower plate, the fixture and the coupler, the angle bar installed on the upper surface The control panel is installed on the lower part of the lower plate to develop a launch device that can be easily fired at any firing angle.The advantage of the above design is stable and the launch angle can be easily adjusted.However, if the rocket is tilted severely, the center of gravity It was displaced forward, and the disadvantages were difficult to precisely control the impact point.

In order to improve these disadvantages, the present invention has a dual structure of the lower side of the launch pad, which allows the launch base to rotate about the bottom plate so that the firing angle can be adjusted, and at the same time, it is severely tilted and stabilized even when the center of gravity is severely tilted forward. In order to separate detachable auxiliary base arbitrarily. In addition, the aiming device with the adjustable height is installed to form the correct impact point so that the exact direction and distance of the shot can be set.

Description

Rocket Launcher for Learning {Rocket launcher capable of controlling the launching angle}

1 and 2 are a perspective view of a conventional rocket mounted state,

3 is a perspective view of the present invention,

Figure 4 is a side cross-sectional configuration of a partially cut state for the air injection portion of the present invention,

5 is a side cross-sectional view of a state in which the rocket and the expansion injection pipe of the present invention are separated;

Figure 6 is a side view showing an angle adjustment state after mounting the rocket of the present invention.

<Explanation of symbols for the main parts of the drawings>

 LA: Rocket body A: Compressed air injection unit B: Angular government c: Controller

DESCRIPTION OF SYMBOLS 100: Launch base 110: Pivot pin 115: Rotation support 120: Bottom plate 121: Fastening part 130 Auxiliary base 140: Connector 160: Aim part

The present invention relates to an improved design of the launch device of the pre-registered patent No. 242676.

The launch device of the elementary and secondary learning rocket is a driving force by filling a high-pressure air or filling water inside a body that is light and strong like a plastic bottle, such as Patent No. 242676, as shown in FIG. Is getting. In order to make the launching process easier and more precise, in 242676 of the present inventor, "the rocket guide space is formed by a support having a rod-shaped structure, and there is a support plate body with a groove on the lower side of the guide space, and the air supply path Compressed air injection unit with a locking device that can be accessed and

Pivot-type pinned angle fixing portion for supporting the compressed air injection portion (a) from the lower side,

It provides a launch pad consisting of a controller (c) is connected to the locking lever and the locking rod connected to the locking device installed on the side wall of the compressed air inlet. The launch pad eliminates the problem of manual inaccurate angle adjustment, and by precisely adjusting the launch angle, it has solved the rocket's flight distance, various fixation during launching, and the difficulty of air charging.

However, the new rocket launch method was introduced by this design. In other words, the introduction of a new method of parallel distance and accurate hitting of a specific target, rather than measuring only the elevation, has required the introduction of a device that is more precisely adjustable and easy to fix.

In addition, it is difficult to easily determine whether the rocket mounted on the launch pad is correctly locked. Experienced rocket launches can be easily understood, but the first launch often leads to failures without knowing this situation. In addition, as the angle of approach is closer to the ground in the form of target alignment, rather than 90 degrees of angle, the more accurate and solid support is required.

By improving these shortcomings, Practitioner Registration No. 361276 of the present inventors developed a launch device that is free to adjust the firing angle. Although there is a side where the firing angle can be freely adjusted by the launching device, in the case of an obtuse angle in which the firing angle is greatly opened, a part of the launching device is exposed to the outside, which requires a separate fixing pin to be installed on the ground. In addition, vertical flight, horizontal flight and angular flight are difficult to achieve from one launch pad.

The present invention is to provide a launch device that can be accurately launched without the launch pad is shaken even if the launch angle of the rocket is inclined severely.

In particular, the present invention enables all rocket launch flights in vertical flight, horizontal flight and angular flight to be smoothly performed by one launch device, while precisely aiming the rocket landing point by the aiming device, and also requires the air pressure inside the rocket. It is intended to provide an adjustable launch device according to.

The present invention relates to a launch device for use in a learning rocket that fills the air pressure inside the PET bottle and rises by the ejection pressure of the water filled with the air pressure.

In particular, the present invention relates to a launch device that is easy to fix at any angle to eliminate the shake of the launch device even if the conventional launch device is a severe inclination angle (launch angle) with the ground.

The present invention constitutes a rocket guide space by a support having an existing rod structure, and there is a support plate body having a groove on the lower side of the guide space, connecting an air supply path to the groove, and a locking device to which the locking rod is accessible. Compressed air injection unit (a) is installed so that the lower part of the rocket body (d) is fixed, pivot-type pinned angle fixing (b) to support the compressed air injection unit (a) from the lower side and In the learning rocket launch device consisting of a controller (C) consisting of a control lever and a locking rod connected to the locking device installed on the side wall of the compressed air inlet, the auxiliary base, the bottom plate is installed so that the launch pad does not shake even at the severe launch angle At the same time, they also have aiming points that can accurately target the impact point to which the rocket will fit. In addition, even if the internal air pressure of the rocket to be launched is already mounted on the launch pad, it is intended to provide a new launch device that prevents water from leaking inside if it tries to reduce the internal pressure.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 and 2 is a conventional launch device, Figure 3 is a perspective view of the present invention, Figure 4 is a side cross-sectional configuration of a partially cut state for the air injection portion of the present invention, Figure 5 is a rocket of the present invention Side cross-sectional configuration of the expansion injection pipe is in a separated state, Figure 6 is a side view showing the angle adjustment state after mounting the rocket of the present invention.

The present invention constitutes a rocket guide space by a support having a rod-like structure, and there is a support plate body with a groove on the lower side of the guide space, connecting an air supply path to the groove, and a locking device for installing the locking rod is installed therein. Compressed air injection portion (a) to secure the lower portion of the rocket body (d), a pivot-type pinned angle correction (b) for supporting the compressed air injection portion (a) from below; In the learning rocket launch device consisting of a controller (C) consisting of a control lever and a locking rod connected to a locking device installed on a side wall of a compressed air inlet,

Another base plate is installed on the lower side of the launch pad base by installing a rotation support part 115 to fix the lower plate freely by the pivot pin 110 under one side end of the launch pad base 100 on which the air injection unit and the rocket bodies are mounted. 120),

Auxiliary base 130 is installed via a fastening portion 121 to be detachably attached to one side end front portion of the bottom plate 120,

The side opposite to the fastening portion of the bottom plate relates to a learning rocket launch device, characterized in that the aiming portion 160 is freely adjustable by the connector 140.

Launch bar base 100 and bottom plate 120 in the present invention is connected to the pivot pin as shown in Figure 6 is rotated about the rotation support 115, the angle of rotation is on the scale 300 of the angle correction) By visual measurement.

In the present invention, the aiming unit 160 is an aiming structure installed on a shooting gun or an arrow at the top thereof, and is capable of extending and contracting such that the height thereof is adjustable, such as an antenna. This is because the height of the rocket installed on the launch pad is inclined or the height of the rocket is different in the case of multiple stages. The scale installed in the aiming unit can be used for general aiming, circular or hemispherical, and there is no special limitation.

Another feature of the present invention is a learning rocket, characterized in that the side portion opposite to the fastening portion of the auxiliary base 130 to form a ground fixing part 135 fastenable to the ground to be arbitrarily fixed with a fastening pin 136 It relates to a launch device. In addition to the bottom plate and bolt nut type fastening method, the auxiliary base can be slid into the bottom plate in a sliding form or can be folded. The auxiliary base can be connected to the bottom plate to expand the width of the bottom of the launch pad.

Fastening pins can be used to fix all the nails, bolts, pins, etc. that can be fixed to the surface of the rocket launcher on which the launch device is installed, in this design, only one ground fixing part is to be installed. This is to allow a plurality of rockets arranged in parallel to rotate around this fixed portion so as to form a straight line with the impact target when one landing point is launched.

Another feature of the present invention is a learning rocket, characterized in that the stop protrusion 150 is installed on the upper periphery of the upper opening portion of the fastening hole 151 of the compressed air injection unit (A) is configured to take the locking rod 155 It relates to a launch device.

As shown in Figure 5, the locking rod is pressed against the outer peripheral surface of the air injection portion of the rocket to be launched. Although the compression operation requires only that the rocket needs to escape from the air injection portion, the locking rod strongly presses the rocket by the elastic spring on the rear side, which may cause air and water leakage. However, the formation of these stop protrusions is applied to the force enough to prevent the rocket from leaving, so that more stable rocket mounting.

Another feature of the present invention is the expansion injection pipe 170 that can be arbitrarily inserted into the compressed air injection passage 158 that penetrates the center of the rocket fixing part 157 in the fastening hole 151 of the compressed air injection unit (a). It is to provide a learning rocket launching device characterized in that the installation.

Another feature is that the rocket fixing part in the fastening hole is simply fitted to the compressed air inlet, so that the rocket pressure is high and the rocket fixing part is aging or deteriorated due to long time use or high pressure. There are occasions when it comes out. The present invention is to fix the shortcomings 175 of the hollow structure to the upper end of the compressed air injection path 158 by the fastener 176 and to install the expansion injection pipe 170 described above. The expansion injection pipe is also integrally fixed to the coupler by the same fastener.

It is often difficult to accurately inject internal air pressure in launching a rocket. In particular, in the case of a rocket launch in the form of a target, the internal pressure is adjusted according to the distance from the target. At this time, when the high pressure air injected to lower the excessively applied internal pressure is discharged together with the air, the driving force is released along with the air. However, when the expansion injection tube is installed as in the case of the present invention, the injection tube is disposed at a higher position than the water of the injected rocket so that water does not flow out even when the air is drawn out.

Another feature of the present invention is to solve the problem that the fastening hole 151 of the compressed air injection portion is gradually pushed down by the insertion pressure of the rocket while the use is frequently used, the rocket is unstable, Figure 5 As shown in the mounting portion 159 in the outer bottom portion of the fastening hole is to prevent any further position shift.

In the present invention, reference numeral H denotes a handle of the controller.

The present invention is not only for the vertical rise of the rocket, but when focusing on the horizontal flight, the angle can be adjusted freely when arbitrarily adjusting the firing angle, can be controlled by controlling the vertical flight, horizontal flight, angle flight.

In particular, the present invention can be used to separate the lower plate, such as the angle control plate and rocket air injection unit as needed, and can be useful in the launch site for learning because the vertical launch, horizontal launch and angular launch all made up of one launching platform. .

Further, the present invention prevents the outflow of water generated by releasing the internal air pressure of the rocket, and enables the formation of accurate impact by accurate aiming by the aiming unit installed together.

Claims (4)

A compressed air injection unit connects an air supply path to a groove at a lower side of the rocket guide space by a support having a rod-shaped structure, and a locking device is installed therein to fix the lower portion of the rocket body (D). A controller configured by connecting a pivoting pin-fixed angle fixing unit (B) supporting the compressed air injection unit (A) from below and an adjustment lever and a locking rod connected to the locking device installed on the side wall of the compressed air injection unit ( In the learning rocket launch device consisting of: Another base plate is installed on the lower side of the launch pad base by installing a rotation support part 115 to fix the lower plate freely by the pivot pin 110 under one side end of the launch pad base 100 on which the air injection unit and the rocket bodies are mounted. 120), Auxiliary base 130 is installed via a fastening portion 121 to be detachably attached to one side end front portion of the bottom plate 120, On the side opposite to the fastening portion of the bottom plate learning rocket launch device, characterized in that for installing the aiming portion 160 is freely adjustable by the connector (140). The method of claim 1,  The side surface opposite to the fastening portion of the auxiliary base 130, the rocket launch device for learning, characterized in that to form a ground fixing part 135 and the fastening pin 136 can be fixed arbitrarily. The method of claim 1, A rocket launch device for learning, characterized in that the stop protrusion (150) is installed at the periphery of the upper opening portion of the fastening hole (151) of the compressed air injection (A) so as to engage the locking rod (155). The method of claim 1, The expansion air injection pipe 170 can be arbitrarily inserted into the compressed air injection path 158 passing through the center of the rocket fixing part 157 in the fastening hole 151 of the compressed air injection part (A), The expansion injection pipe is to be fixed by the fastener 176 on the upper end of the compressed air injection path 158 through the coupler 175 of the hollow structure, Learning rocket launching device, characterized in that for installing the support portion 159 for preventing the position shift to the outer bottom surface of the fastening hole.

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