KR200206047Y1 - Model rocket launcher - Google Patents

Abstract

The present invention relates to a device used to launch a laboratory rocket, and more specifically, to check in advance the failure caused by the disconnection or short circuit of the ignition rod (igniter), which is an essential part of the rocket launch, during the launch of the model rocket. The present invention relates to a launch device for a model rocket that can detect an ignition rod failure that can be performed in an optimal state.

Launching device of the model rocket capable of detecting the ignition rod failure of the present invention, the battery 16 to be connected by a plug-type terminal to supply the entire power; The common terminal is connected to the (+) terminal of the battery 16 and the other terminal is connected so as to be switched so that the selection switch 14 having three terminal pairs (a, a ', b, b', c, c ') is provided. ; An ammeter (19) having one end connected to a terminal (a) of the selection switch (14) and the other end connected to a negative terminal of the battery (16); A test terminal 20 connected in parallel with the arm meter 19 and connected to the ignition rod of the model rocket; A battery check switch 21 connected in series with the lamp 18 connected in parallel with the arm meter 19 and having the other end connected to the negative terminal of the battery 16; A rocket engine connection terminal 7 having one end connected to the b terminal of the selection switch 14; A rocket emission switch 1 having one end connected to the rocket engine connection terminal 7 and the other end connected to a negative terminal of the battery 16; And a circuit test switch 22 for checking the connection state of the ignition rod.

Description

Launching device of model rocket to detect ignition rod failure

The present invention relates to a device used to launch a laboratory rocket, and more specifically, to check in advance the failure caused by the disconnection or short circuit of the ignition rod (igniter), which is an essential part of the rocket launch, during the launch of the model rocket. The present invention relates to a launch device for a model rocket that can detect an ignition rod failure that can be performed in an optimal state.

In certain schools, such as personal hobbies or aviation high school, students often make their own model rockets and launch them into the air during the experiment. These experiments are encouraged because they help students to be curious about science and to acquire the most basic theories. However, it often happens that a model rocket fails to fire. It is difficult for the students who are not acquiring the specialized knowledge to find out the cause of the failure, so that the frequent failure can reduce the interest of learning and halve the educational effect.

Most of the failure factors in model rocket launch prove to be electrical problems. This is not well detected even if the electrical check before the rocket launch, and was difficult to detect accurately. In other words, since the ignitor used in the rocket engine is composed of very thin nichrome wire, it is easy to break the line during installation for the launch of the model rocket. It also occurred when the ignition rod was broken and could not be found by short circuits in other parts of the circuit.

However, even in this case, it was difficult to find a fault part by simple circuit test. That is, the nichrome wire of the ignition rod was extremely small, with a resistance of about 0.3 to 1 Ω, so it was not easy to find out whether it was a short circuit or normal even by measuring the resistance with a conventional multimeter. This is because the multimeter itself already contains many resistors in the circuit, so it has to be passed through very small resistance values in series, causing the multimeter to display very little.

The present invention was devised to solve the above problems, the object of the present invention is to launch the model rocket launch device that can detect the ignition rod failure that can be tested in advance before firing the connection state of the ignition rod mounted on the model rocket To provide.

Another object of the present invention is to provide a launch device for a model rocket that can detect a failure of the ignition rod that can be installed in a plurality of model rockets at a time to launch the rocket in sequence.

Launching device of the model rocket capable of detecting the ignition rod failure of the present invention for achieving the above object, to supply the entire power and to the battery connected by the plug-type terminal, and to the (+) terminal of the battery The common terminal is connected and the other terminal is connected so as to be switched, and a selection switch having three terminal pairs (a, a ', b, b', c, c ') is connected to one end of the selection switch terminal (a). And the other end connected to the negative terminal of the battery, and the test terminal connected in parallel with the ammeter as the ammeter and the test terminal connected to the ignition rod of the model rocket, and the other end connected in series with the lamp connected in parallel with the ammeter. Battery check switch connected to the (-) terminal of the rocket engine connector, one end of which is connected to the b terminal of the selection switch, one end of the rocket engine connection terminal is connected to the other end of the (-) terminal of the batteryIt consists of connecting the power supply circuit test switch to identify the switch and the rocket launch, and an ignition rod that results connection.

1 is a state of use of the model rocket launch device according to the present invention,

2 is an electrical wiring diagram of the model rocket launch apparatus according to the present invention.

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

1,2,3,4,5,6: rocket emission switch,

7,8,9,10,11,12: rocket engine connection terminal,

13, 17: resistance, 14: selector switch.

15: Winker, 16: Battery,

18: lamp, 19: ammeter,

20: test terminal, 21: battery check switch,

22: circuit test switch, 23: launch pad,

24: Model Rocket.

Hereinafter, with reference to the accompanying drawings will be described in detail the launch device of the model rocket capable of detecting the ignition rod failure of the present invention.

The present invention is a launch device for detecting the failure of the ignition rod, which plays an important role in ignition at the time of launching the model rocket, and also facilitates the launch.

Launching device (A) according to the present invention, referring to the use state diagram of Figure 1, is configured to be able to launch the model rocket 24 from a remote place by the wire in a state loaded on the launch pad 23 for the launch. The launching device A can be miniaturized to be portable so that it can be easily carried to the launch site of the model rocket. The distance from the model rocket can keep a sufficient distance for safety and this is achieved by extending the length of the wire.

In addition, it will be apparent to those skilled in the art to which the present invention pertains that a short circuit state of an ignition rod (not shown) can be detected in a state where it is mounted on a launch pad 23 on which wheels are installed at a lower side before standing vertically. The shorting state of the ignition rod is performed by reading the indicator hand displayed through the arm meter 19 of the firing device A. The operating state of the arm meter 19 will be described later.

When the inspection of the ignition rod is finished and determined to be normal, the user can easily launch the model rocket by installing the model rockets 24 and pressing the rocket emission switch installed in the launch device A as shown in FIG. 1. .

2 is a wiring diagram of a launch device according to the present invention. As shown in the drawing, the battery 16 is connected to the battery 16 to be connected by a plug-type terminal, and the common terminal is connected to the (+) terminal of the battery 16 and the other terminal is connected to be switched. A selection switch 14 having three terminal pairs (a, a ', b, b', c, c '), one end of which is connected to the terminal a of the selection switch 14, and the other end of the battery 16 Ammeter 19 connected to the (-) terminal of the), the test terminal 20 connected in parallel with the arm meter (19) and the ignition rod of the model rocket, and the lamp connected in parallel with the ammeter (19) Battery check switch 21 connected in series with (18) and the other end of which is connected to the negative terminal of the battery (16), and the rocket engine connection terminal (7) of which one end is connected to the b terminal of the selection switch (14). ) And a rocket launch switch having one end connected to the rocket engine connection terminal 7 and the other end connected to the negative terminal of the battery 16. It consists of (1).

The battery 16 supplies power required for the main launcher A, and the positive pole is connected to the c and c 'terminals of the common terminal of the selector switch 14, which is a switching switch capable of switching the connection point. have. In the present invention, when the connection of the battery 16 is not used by using a plug, the battery 16 is separated from the launch device A.

The selector switch 14 connected to the battery 16 is switchable and includes a-a and b-b 'terminals. Depending on the switching state of the switch, the user can perform the firing rod test of the model rocket or the firing operation of the model rocket.

In the figure, it can be seen that the switch terminal is connected to the b and b 'terminals, which is used to launch the model rocket. That is, the voltage supplied from the battery 16 is connected to the rocket emission switch (1, 2, 3, 4, 5, 6) and the rocket engine connection terminals (7, 8, 9, 10, 11, 12) is supplied. The rocket engine connection terminals 7, 8, 9, 10, 11, 12 are extended by electric wires and are connected to a model rocket 24 installed in the launch pad 23 as shown in FIG. 1. Therefore, the six model rockets 24 can be fired one at a time or at a time while the selection switch 14 is connected to the b and b 'terminals. It is configured using a coaxial socket to facilitate the connection of the wire connected to the model rocket 24 located in the launch pad (23).

In addition, to indicate that the model rocket 24 is in the firing state, a blinker (winker) is further connected to the b 'terminal. By doing so, it is possible to prevent the occurrence of malfunctions, such as a switch that is placed at the firing position and can be tested and misfired. The winger 15 is preferably configured by using a device that emits light by repeatedly charging and discharging itself when power is supplied.

For the ignition rod test of the model rocket 24, connect the model rocket 24 to the test terminal 20 as shown in Figure 1 and move the terminals of the selector switch 14 to a, a '. Therefore, power is supplied to the arm meter 19 and the test terminal 20 through terminal a. In this case, since the a 'terminal is disconnected, it can be seen that power is not supplied. In practice, however, the ammeter 19 does not work. For the ignition rod test, after the configuration as described above, the circuit test switch 22 must be connected so that the power meter flows to operate the ammeter 19. This circuit test switch 22 is double installed for safety.

When the circuit test switch 22 is turned on, the current flows through the test terminal 20 while the power is supplied, and the current flows through the arm meter 19 at the same time. As shown, since the ignition rod and the arm meta 19 are connected in parallel, it can be seen that the current of the arm meta 19 changes according to the state of the ignition rod. In other words, in the present invention, the ammeter 19 is connected in parallel with the ignition rod and a certain amount of current is flowed through the circuit to read the current value changing at this time and determine whether there is an abnormality.

When the resistance value of the ignition rod changes when a certain amount of current flows in the arm meter 19 and the test terminal 20 in the circuit test state, the current value of the arm meter 19 changes. When the ignition rod is broken, the resistance becomes infinity and the current value of the ammeter 19 has the maximum value. If the resistance is normal, the current value of the ammeter 19 becomes constant. . Therefore, the user reads the current change value of the ammeter 19 to recognize the state of the circuit. Actually, the current value according to the state of the ignition rod can be measured in advance, and the circuit state can be classified accordingly.

In addition, the selection switch 14 is further connected to the lamp 18 and the battery check switch 21. In particular, by using a lamp having a larger capacity than a battery, it is possible to determine whether a sufficient amount of current is generated by rocket firing by using the light emitting state of the lamp 18. The degree of current drop displayed when a current flows in the lamp 18 There is an advantage that can determine whether the replacement of the battery by checking. Unexplained reference numerals 13 and 17 are used to block the flow of current as a resistor.

It describes the operating state of the launch device of the model rocket capable of detecting the ignition rod failure of the present invention having the configuration as described above. Before firing the model rockets 24, the user may first inspect the ignition rods and the circuit of the model rocket 24 by moving on the launch pad 23 equipped with a mobile wheel or by hand as shown in FIG. That is, in the state where the terminals of the selector switch 14 are located at a and a ', the model rocket 24 including the ignition rod is connected to the test terminal 20 and the circuit test switch 22 is turned on. Therefore, power is supplied from the battery 16 and passes through the arm meter 19 and the test terminal 20.

At this time, the current value of the arm meter 19 is changed as described above according to the connection state of the ignition rod. The user reads this current value and determines whether the ignition rod is normal. When it is determined that the ignition rod is normally connected, the user can position the launch pad 23 as shown in FIG. 1 and fire the model rocket by remotely turning on one or more of the rocket emission switches 1 to 6 of the launch device A at a remote location. It is. At this time, the terminals of the selector switch 14 are switched to b and b 'for launching the rocket.

In addition, since the winker 15 emits light in order to indicate to the user that the rocket is emitted, malfunction can be prevented. In addition, the battery check switch 21 can be used to check the remaining state of the battery 16 during use, and the battery 16 itself can also be plugged in to remove it when not in use to prevent unnecessary discharge.

As described above, according to the present invention, it is possible to detect the failure of the ignition rod that can be tested in advance before the firing state of the ignition rod mounted on the model rocket. There is an advantage.

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that the present invention may be modified or changed within the spirit and scope of the present invention, and such modifications or changes belong to the appended claims.

Claims (2)

In the launch device for launching the model rocket, Batteries (16) connected to the plug-type terminal for supplying the entire power; The common terminal is connected to the (+) terminal of the battery 16 and the other terminal is connected so as to be switched so that the selection switch 14 having three terminal pairs (a, a ', b, b', c, c ') is provided. ; An ammeter (19) having one end connected to a terminal (a) of the selection switch (14) and the other end connected to a negative terminal of the battery (16); A test terminal 20 connected in parallel with the arm meter 19 and connected to the ignition rod of the model rocket; A battery check switch 21 connected in series with the lamp 18 connected in parallel with the arm meter 19 and having the other end connected to the negative terminal of the battery 16; A rocket engine connection terminal 7 having one end connected to the b terminal of the selection switch 14; A rocket emission switch 1 having one end connected to the rocket engine connection terminal 7 and the other end connected to a negative terminal of the battery 16; And Launching device of the model rocket capable of detecting the failure of the ignition rod, characterized in that consisting of a circuit test switch 22 for connecting the power source to check the connection state of the ignition rod. The ignition rod according to claim 1, further comprising a winker (15) having one end connected to the b 'terminal of the selection switch (14) and the other end connected to the negative terminal of the battery (16). Launching device of model rocket which can detect the failure.