FIRE EFFECT SENSOR ACTIVATED TRASHCAN

Abstract

The present invention provides a trashcan or wastebasket that has lights and sounds simulating a fire that are activated when trash is thrown inside or on the verge of being thrown inside. One particular activation method consists of sensors housed at the top of the trashcan that detect when trash is thrown in. Once the trash is detected, the walls of the trashcan light up and flicker with an orange color like a fire and crackling fire sounds play. The lights and sounds play for a short interval and then stop until trash is detected again.

Claims

1. A fire effect sensor activated trashcan, comprising: a generally shaped trashcan body housing for detecting when trash is thrown inside or on the verge of being thrown inside said generally shaped trashcan body by one or more sensors, wherein said generally shaped trashcan body additionally housing fire effect circuitry that is activated by said one or more sensors when trash is thrown inside said generally shaped trashcan body.

2. The fire effect sensor activated trashcan according to claim 1, wherein when said fire effect circuitry is activated, side walls of said generally shaped trashcan body illuminate and flicker with an orange light spectrum that simulates a fire.

3. The fire effect sensor activated trashcan according to claim 1, wherein said fire effect circuitry includes one or more speakers housed interiorly within said generally shaped trashcan body, wherein when said fire effect circuitry is activated, realistic fire crackling sounds play from said trashcan speakers.

4. The fire effect sensor activated trashcan according to claim 1, wherein said fire effect circuitry conditionally and temporarily turns on with different methods of activation.

5. The fire effect sensor activated trashcan according to claim 1, wherein said fire effect circuitry operates immediately after an activation method has been triggered, or after a delay from said activation trigger, or after said activation trigger has ended.

6. The fire effect sensor activated trashcan according to claim 1, wherein one or more sensors located around a top rim of said trashcan detects when trash is thrown in using a single sensor or an IR break beam sensor configuration.

7. The fire effect sensor activated trashcan according to claim 1, wherein said fire effect circuitry is activated by hand, foot, or body proximity using a motion sensor, infrared sensor, or other proximity sensor.

8. The fire effect sensor activated trashcan according to claim 1, wherein a trashcan lid is mounted to a top of said generally shaped trashcan body wherein touching or moving said trashcan lid causes fire effect circuitry activation using a pressure sensor, infrared sensor, mechanical switch, or other touch or motion sensor housed by said generally shaped trashcan body.

9. The fire effect sensor activated trashcan according to claim 1, wherein said fire effect circuitry is activated by pressing down on a foot pedal which activates a mechanical switch located within the trashcan for producing the fire effect.

10. The fire effect sensor activated trashcan according to claim 1, wherein said fire effect circuitry is activated by touching a sensor with a user's foot at a base of said generally shaped trashcan body using an infrared sensor, pressure sensor, or other touch sensor.

11. The fire effect sensor activated trashcan according to claim 1, wherein said fire effect circuitry is activated by a voice command.

12. The fire effect sensor activated trashcan according to claim 1, wherein said fire effect circuitry is activated by an external sound.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0006] To further clarify various aspects of some example embodiments of the present invention, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawing. It is appreciated that the drawing depicts only illustrated embodiments of the invention and are therefore not to be considered limiting of its scope. The invention will be described and explained with additional specificity and detail through the use of the accompanying drawing in which:

[0007] FIG. 1 is a perspective photographic representation of the fire effect sensor activated trashcan in accordance with the present invention;

[0008] FIG. 2 is a photographic view of the fire effect sensor activated trashcan illustrating sensor mounting locations in accordance with the present invention;

[0009] FIG. 3 is another photographic view of the fire effect sensor activated trashcan illustrating a speaker location in accordance with the present invention;

[0010] FIG. 4 is a diagram of one example of fire effect circuitry used by the sensor activated trashcan in accordance with the present invention;

[0011] FIG. 5 is a graphical representation of a side view of the fire effect sensor activated trashcan illustrating the interior housing features in accordance with the present invention.

DETAIL DESCRIPTION OF THE INVENTION

[0012] Referring now to FIG. 1, there is shown a generally shaped trashcan body 10 in accordance with the present invention that has lights and sounds that are activated when trash is thrown inside. More particularly and referring to FIG. 2, sensors 12 and 18 are housed at the top of the trashcan that detect when trash is thrown in. In one preferred embodiment, the sensors 12 and 18 are an infrared receiver 12 and an infrared LED 18. Once the trash is detected, the walls of the trashcan light up and flicker (not shown) with an orange color like a fire, and crackling fire sounds play. The lights and sounds play for a short interval and then stop until trash is detected again.

[0013] More specifically and turning once again to FIGS. 1 through 5, in one preferred embodiment the sensor comprises an infrared LED 18 and infrared receiver 12 arranged to produce an IR break-beam detector system for detecting trash being thrown into the trashcan. The infrared receiver 12 indicates the detection status to a microcontroller 28 as shown in FIG. 4. More specifically, the microcontroller 28 interfaces using a power supply 34 circuit with a high power RGB LED 14 and audio circuitry 24. When the infrared receiver 12 indicates trash detection, the microcontroller 28 causes the LED 14 to turn on and flicker with an orange/yellow color using pulse-width modulation for a short interval. A speaker 16 produces fire crackling sounds that are also activated and play during this short interval through speaker cutouts located on the side 20 of the trashcan body 10. Additionally, the trashcan may be frosted and semi-transparent and/or clear wherein a high power LED 14 is located at the trashcan's bottom center facing upwards such that its light diffuses over the trashcan's walls to simulate the orange color like fire.

[0014] It should also be understood that the term trashcan also means a wastebasket or the like, wherein the present invention consists of the following features:

1. The “fire effect” of the trashcan consists of:

[0015] a. The side walls of the trashcan illuminate and flicker with an orange light spectrum that simulates a fire.

[0016] b. Realistic fire crackling sounds play from the trashcan speakers 16.

2. The fire effect conditionally and temporarily turns on with different methods of activation.
3. The fire effect occurs immediately after the activation method has been triggered, or after a delay from the activation trigger, or after the activation trigger has ended.
4. Methods of activation of the temporary fire effect include:

[0017] a. Sensors around the top rim of the trashcan detect when trash is thrown in and activate the fire effect. An example of this is the IR break beam sensor configuration 40 as is well known in the prior art.

[0018] b. Hand, foot, or body proximity using a motion sensor 46, infrared sensor 40, or other proximity sensor activates the fire effect.

[0019] c. Touching or moving the trashcan lid with a pressure sensor 44, infrared sensor 40, mechanical switch 42, or other touch or motion sensor activates the fire effect.

[0020] d. Pressing down on a foot pedal activates a mechanical switch 42 located within the trashcan for producing the fire effect.

[0021] e. Touching a sensor with your foot at the base of the trashcan using an infrared sensor, pressure sensor, or other touch sensor activates the fire effect.

[0022] f. A voice command or external sound received by a microphone 48 activates the fire effect.

[0023] Those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiment as a basis for designing or modifying other structures for carrying out the same purposes of the present invention and that such other structures do not depart from the spirit and scope of the invention in its broadest form.