RU2077358C1 - Sound signalling apparatus for toy - Google Patents

Abstract

FIELD: signalling device for movable self-propelled or mechanical toys. SUBSTANCE: apparatus has unit for determining position of movable object, sound signal generating unit with sound emitter, initial setting unit and univibrator. Movable object position determination unit has toy motion and position sensor and discriminator connected in series. Sound signal generating unit has strobe signal generator and sound frequency generator connected in series. EFFECT: increased efficiency, simplified construction, increased entertainment effect. 4 cl, 5 dwg

Description

 The invention relates to electronic toys and can be used in moving self-propelled or mechanical toys with a change in speed and / or direction of movement with the formation of an intermittent sound signal.

 A sound device for a toy is known that contains a proximity sensor that responds to the proximity of an object and contains two detectors that detect the proximity of the object and provide a signal to a memory circuit that controls the sound signal generation circuit containing a control unit, a storage device with a set of sound data signals, sound generation unit and digital-to-analog converter. The control unit is turned on when the installation signal is received from the memory circuit, reads the sound signal data from the storage device in a certain sequence and feeds it to the sound generating unit, the output signal of which is converted by the digital-to-analog converter into sound signals of the sound emitter. At the end of the sound synthesis, the control unit resets the memory circuit 1.

The disadvantages of the known device are:
a complex scheme for generating sound signals containing a significant number of blocks, including a memory block, into which information is entered during the manufacturing process;
the presence of a high-frequency emitter in a proximity sensor and a receiver of reflected high-frequency signals that complicate the circuit and require the conversion of a constant voltage to a high-frequency radio signal, which is associated with the expenditure of energy;
the presence of high-frequency radiation, which even within sanitary standards adversely affects the body of the playing child, which is unacceptable even in small amounts.

 The present invention solves the problem of increasing gaming entertainment while simplifying the device and reducing power consumption.

 The invention is illustrated by drawings, where in FIG. 1 shows a functional diagram of the device, in FIG. 2 an example of the motion sensor and position 2, in FIG. 3 an example of the implementation of discriminator 3, in FIG. 4 shows an example of the implementation of the initial installation unit 4 and the single vibrator 5, in FIG. 5 shows an example of the execution of the sound generator 6.

 The device contains (see Fig. 1) a power supply unit 1, a sensor 2 for the movement and position of toys, a discriminator 3, an initial installation unit 4, a single vibrator 5, an audio signal generating unit 6, consisting of a gate signal generator 7 and an audio frequency generator 8, sound emitter 9.

 The motion and position sensor 2 (see FIG. 2) comprises a housing 10, an electrically conductive layer 11, a cover 12, an electrically conductive layer 13 of the cover, a ball 14, contacts 15, 16.

 The discriminator 3 (see Fig. 3) contains resistors 17, 18 and a differentiating capacitor 19.

 The initial installation unit 4 (see Fig. 4) contains a diode 20 and a galvanic coupling resistor 21.

 The one-shot 5 (see Fig. 4) contains a resistor 22, inverters 23, 24, a diode 25 and a capacitor 26.

 The generator 7 of the strobe signals (see Fig. 5) contains resistors 27, 28, inverters 29, 30, diode 31, capacitor 32.

 The sound frequency generator 8 (see Fig. 5) contains resistors 33, 34, inverters 35, 36, diode 37, capacitor 38.

 The power supply 1 is connected in series with the motion and position sensor 2 and the discriminator 3 and is connected to the initial installation unit 4, and is also intended to power the electronic circuit elements of the entire device.

 The motion and position sensor 2 is designed to determine the state of the toy and the presence of its movement with or without acceleration in the horizontal plane.

 In the particular case of execution, the motion and position sensor (see Fig. 2) consists of a housing 10, at the bottom of which a conductive layer is applied by spraying or pasting 13. At the bottom of the housing 10 a conductive ball 14 is freely placed, which closes with it when the conductive layer 13 is touched the conductive layer 11. The conductive layers 11 and 13 are connected respectively to the contacts 15 and 16, which are interconnected when the ball 14, being on the conductive layer 11 touches the layer 13, and open when the ball 14 does not touch the layer 13.

 Thus, at the output of the sensor 2, an “open” signal is generated (open state of the sensor contacts 15 and 16) and a “housing” (closed state of the sensor contacts).

 When changing speed, i.e. when acceleration appears, the ball 14 changes its position, touches layer 13 and briefly closes layers 11 and 13 with each other, at the output of sensor 2, a pulse appears at the second input of discriminator 3, the first input of which is supplied with power from power supply 1.

 In the particular case of the implementation of the motion sensor 2 and the position of the bottom of the housing 10 is made concave. The ball 14 without movement and with uniform movement is in the lower part of the concave bottom and can close the layer 11 with the layer 13 only at a certain acceleration, the value of which depends on the weight of the ball and the radius of curvature of the concave bottom.

 Thus, by choosing these parameters, a sensor can be obtained that responds to a specific acceleration.

 The discriminator 3 is designed to convert the short-circuit of the contacts of the sensor 2 into a short negative voltage pulse at the first input of the one-shot 5, to which the output of the discriminator 3 is connected.

 The discriminator 3 can be performed, for example, according to the scheme of FIG. 3 and consists of resistors and a differentiating capacitor.

 The initial installation unit 4 is intended for installation in the initial (zero) state of the one-shot 5 and to provide galvanic communication of the one-shot 5 with the power supply 1.

 The initial installation unit 4 is connected to the second input of the one-shot 5, and can be performed, for example, according to the circuit of FIG. 4. It contains a diode 20 for the fast discharge of the capacitor 26 when the single-vibrator 5 is installed in the initial state and a resistor 21 for maintaining the galvanic connection of the positive lining of the capacitor 26 with the power supply 1 with a reverse bias of the diode 25.

 The one-shot 5 is connected to the input of the sound generating unit 6 and is designed to normalize pulses from the sensor 2 having an arbitrary duration. Thus, when the contacts of the sensor 2 are short-circuited, an audible alarm is provided for a certain duration, determined by the output pulse of the one-shot 5.

 The one-shot 5 can be performed, for example, according to the circuit of FIG. 4 and contains an input resistor 22, inverters 23, 24, a diode 25, a capacitor 26.

 When the contacts of the sensor 2 are open, the input of the one-shot 5 is connected through the discriminator 3 to the power supply 1, the diode 25 is closed, because its cathode through the resistor 21 of block 4 is also connected to the power supply 1. At the output of the inverter 23 there is a zero potential, and at the output of the inverter 24 a positive potential. Capacitor 26 is not charged.

 When a negative impulse appears at the input of the one-shot 5 (when the contacts of the sensor 2 are short-circuited), the diode 25 remains closed, a positive impulse appears at the inverter 23 output, a negative impulse appears at the inverter 24 output, the diode 25 opens and the capacitor 26 starts charging through the resistor 21, the diode 25 and in parallel through the resistor 21 of the initial installation unit 4, while the potential at the input of the inverter 23 is close to zero (differs from zero by the magnitude of the voltage drop at the forward biased pn junction of diode 25) and supports alive zero potential at the output of inverter 24. This state is maintained until the capacitor 26 is charged to a voltage at which the potential formed at zero potential, and the output of inverter 26 will be a positive regarded as positive, while at its output the input of the inverter 23. The one-shot 5 will return to its original state, while the capacitor 26 is discharged without delay through the diode 20 of block 4, and the one-shot can generate the next pulse in the presence of a signal from the sensor 2.

 The node 6 is intended for the formation within the pulse duration of the one-shot 5 intermittent sound signals and is connected to the sound emitter 9.

 The node 6 consists of a series-connected generator of the strobe signals 7, forming rectangular pulses of low frequency, gating the operation of the generator of sound frequency 8.

 The generator 7 can be performed, for example, according to the circuit of FIG. 5 and represents a generator of rectangular pulses, at a single signal level at the output, blocking the operation of the sound frequency generator 8. Thus, the output signal of the generator 8 is a burst of pulses of sound frequency.

 The generator 8 can be performed, for example, according to the circuit of FIG. 5.

 The sound emitter 9 can be made on the basis of a piezoelectric sound signaling device.

 The device operates as follows.

 When the toy is stationary, the motion and position sensor 2 generates a static signal of open circuit "power supply unit 1 discriminator 3+ or short circuit of this circuit, and a positive potential is formed at the output of discriminator 3, in which the one-shot remains in the initial (zero) state. Node 6 generating sound signals does not generate sound frequency pulses.

 The device operates similarly with uniform movement without acceleration, in which the sensor 2 does not generate a signal for breaking the circuit.

 When acceleration appears (movement of the toy from its place, change of direction, etc.), the signal at the output of sensor 2 changes from the open circuit state to the short circuit state due to short-circuiting of the sensor 2 contacts.

 The discriminator 3 generates a short negative impulse, a one-shot 5 is launched, a signal of a given duration is generated at its output, which triggers a gate signal generator 7 on the rising edge. Periodic rectangular pulses are generated at its output within the action of the one-shot output pulse 5. The positive output pulse of the generator 7 blocks the operation of the low-frequency generator 8, in the intervals between the pulses of the generator 7, the generator 8 starts up and generates pulses of sound frequency, ue to the acoustic alarm 9 which thus emits intermittent audio signals from the normalized duration sound.

 The use of the invention increases the gaming entertainment of the device.

Claims (1)

1 1. A sound alarm device for a toy, comprising a node for determining the position of a moving object, connected by an output to the input of a node for generating sound signals with a sound emitter, and a power supply unit, characterized in that it is provided with a series-connected initial installation unit and a single-vibrator, a node for determining the position of a moving object has a motion sensor and a position of the toy and a discriminator connected in series, and the audio signal generating unit is made in the form of series connected x a strobe signal generator and an audio frequency generator, wherein the first output of the power supply is connected to the input of the motion sensor and the position of the toy, the second output of the power supply is connected to the input of the initial installation unit and the second input of the discriminator, which is connected to the second input of the one-shot connected to the output of the input of the generator of the strobe signals. 2 2. The device according to claim 1, characterized in that the sensor of movement and position of the toy contains a housing of insulating material with an electrically conductive part on the inside the bottom side, on which the electrically conductive ball is freely placed, and the lid with the electrically conductive part on the inner surface, the electrically conductive parts of the housing and the covers are connected to insulated contacts. 2. 3. The device according to claim 2, characterized in that the inner side of the bottom of the housing made concave. 2 4. The device according to claim 1, characterized in that the gate signal generator contains a diode, the cathode of which is the input of the gate signal generator, inverters, resistors and a capacitor, while the anode of the diode is connected to the first conclusions of the resistors and the input of the first inverter, the output of which is the output of the strobe signal generator and connected to the first output of the capacitor connected to the second output with the second output of the first resistor and through the second inverter with the second output of the second resistor, the sound frequency generator contains a diode, the anode of which is the input sound frequency generator, inverter, resistors and a capacitor, while the cathode of the diode is connected to the first terminals of the resistors and the input of the first inverter connected by the output through the condens an inverter with a second terminal of the first resistor and through a second inverter with a second terminal of the second resistor, one of the outputs of the inverters being the output of the sound frequency generator.

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