JP3190227U - Energizing experience device - Google Patents

Abstract

An energization experience device for energizing a child or an infant by using a weight of a button-type battery by dropping or the like and causing an LED installed in a transparent case to emit light is provided.
A device in which a current-carrying portion made up of a folded transparent plate, an LED, and a conductive metal foil, a folded-up transparent plate, and a button-type battery sandwiched therebetween are inserted in a transparent case. The current-carrying part is folded three times with a rectangular transparent plate and the outer two sides are coated with conductive metal foil with adhesive on one side so that the central mountain folds do not touch. The LED is polarized on the two sides from the top of the central mountain fold. The other two mountain folds are bent inward and the two surfaces have a slight gap. This is a device that uses the weight of a button-type battery to be sandwiched by dropping or the like to turn on or off the LED. It has become a stable device that does not use conducting wires, such as button-type batteries, LED compactness, and a transparent case.
[Selection] Figure 1

Description

  The present invention relates to an energization experience device for children and infants who are in the introductory period of scientific concepts, which uses a weight of a button-type battery to cause energization by dropping or the like to emit an LED.

  Prior art for experiencing energization using batteries for children and infants was an apparatus related to experiments using dry batteries, miniature light bulbs, and sockets with conductors.

Ministry of Education, Culture, Sports, Science and Technology, "Elementary School Study Guidelines", pp. 49-59, 2008, access 2014.1.0.05, http: // www. mext. go. jp / component / a_menu / education / micro_detail / __ icsFiles / fieldfile / 2010/11/29 / syo. pdf Ministry of Education, Culture, Sports, Science and Technology, “Observation of Elementary School Science, Guide to Experiments”, 2011, http: // www. mext. go. jp / component / a_menu / education / micro_detail / __ icsFiles / fieldfile / 2012/01/12 / 1304649_6_1. pdf, pp. 37-40, access 2014.1.005 Takeuchi Takehito, Takemura Shigekazu, Mori Kazuo and 30 others, “New Science 3rd Year”, Keirinkan, 2000, pp. 66-73

  For younger children and toddlers, there are known devices for conducting energization experiences with scientific fun and mechanisms, such as the simplicity of operability to drop button-type batteries and the visual confirmation of LED emission by energizing them. Absent.

  The above-mentioned experimental apparatus of the prior art uses a dry battery, a miniature light bulb, a socket with a conducting wire or the like as an educational material, learns that a circuit can be made by connecting them, and the miniature light bulb is turned on when energized. There are many parts of assembly material, and it is difficult to assemble for young people who are immature. There is no known energization experience device that can be easily produced by young children and toddlers who are in the beginning of scientific concepts.

  In the above-described prior art experimental device, each part is connected by a conductive wire and is not fixed, so that it is difficult for a young person to perform a stable operation. There is no known energization experience device as an educational material that can be enjoyed and operated by young children and toddlers who are in the introductory period of science concept.

  In this invention, a conductive metal foil and LED are attached to a bent material having hinge resistance inserted in a transparent case to provide an anode and a cathode. The LED is turned on by pinching it, and the LED is turned off by turning it upside down. It can be easily produced and operated as an educational material for young children and toddlers who are in the beginning of scientific concepts. It is an energization experience device that allows scientific experience.

  The present invention is intended for children and infants with lower grades, because it uses the weight of the button-type battery itself, making it easy to operate and turning on / off the LED by visual contact with the LED. It is an energization experience device characterized by scientific fun and mechanisms such as energization confirmation.

  In a transparent case with a width, depth, and height that can be held by palms for younger children and young children, a rectangular hinge-resistant transparent plate is folded three times and a central mountain fold is sandwiched between them. Position the button-type battery between the energized part with conductive metal foil attached so that it does not join at the top of the two outer surfaces and the LED fixed to the top of the mountain fold, and the rectangular valley-shaped transparent plate of the same material. The LED is turned on or off by moving the button-type battery up and down between the two. The button-type battery moves and is energized or de-energized, such as dropping due to the weight of the button-type battery itself, tapping it down, or tapping it on a flat plate placed elsewhere. It is an energization experience device characterized in that the LED is lit or extinguished by conducting contact by utilizing the weight.

  In addition, it is characterized in that an elastic cloth adhesive tape or silicon rubber is attached to the bottom of the transparent case, and the bottom lid is pressed, so that the button-type battery moves and is brought into conductive contact and the LED is lit. It is an energizing experience device.

  The material is made by folding a rectangular hinge-resistant transparent plate into a mountain, pasting a conductive metal foil so that it does not join at the top of the two outer surfaces, and fixing the LED to the top of the mountain, or a rectangular valley with the same material. It is an energization experience device that is compact by using a transparent plate, a button-type battery, and a transparent case that encloses them, and is a familiar material without using conductive wires.

  The button-type battery moves within the case due to its weight, etc., by not fixing the hinge-resistant mountain folded and valley folded rectangular transparent plates contained in the transparent case, It is an energization experience device characterized in that the valley folding part is pinched by making it at an acute angle.

  Two folded rectangular transparent plates are transparent with a case containing a button-type battery, which is an energization experience device with a feature that facilitates light emission confirmation.

  Inside the transparent case, a rectangular transparent plate is folded three times, and a conductive metal foil is pasted on the outer two surfaces so that it is not joined at the central mountain fold. A button-type battery is placed between the transparent plate and the light-emitting body and battery are attached and removed by turning them on or off to turn them on or off. This is a simple structure that can be energized and manufactured with familiar materials.

  The button-type battery falls due to its own weight, swung down, lightly hitting another flat plate, etc., or pressing the bottom of the case containing the button-type battery to turn the LED on or off Even younger children and young children can enjoy learning while feeling the fun of simple operability and visually confirming energization by light emission from the LED.

  The material is close and transparent, such as transparent case, hinge-resistant transparent plate, conductive metal foil, LED, button-type battery, cloth adhesive tape, etc. It can be easily manufactured and operated by young children and young children.

  Using the weight of the button-type battery, the button-type battery is moved or energized or de-energized when the button-type battery is dropped or swung down or tapped on another flat transparent plate. It can play the role of a switch such as turning off the light. In addition, the bottom of the transparent case is covered with elastic cloth adhesive tape or silicon rubber, so that the button-type battery can be moved and contacted by pressing the lid bottom to light the LED. is there.

  With a simple structure that contains less material, a transparent case, LED, and button-type battery inside, it can be easily manufactured and operated by children and toddlers of lower grades. And know the mechanism.

  It has become a structure that can enhance the educational effect as an educational material for children and toddlers in the introductory period of science concept who are interested in scientific fun and mechanism.

Front energization part of the energization experience device of the present invention. Side energization part of the energization experience device of the present invention. The sketch of Example 1 of the electricity supply experience apparatus of this invention. The disassembled perspective view inside the case of Example 1 of the electricity supply experience apparatus of this invention. The exploded perspective view at the time of the electricity supply inside the electricity supply experience apparatus of this invention. The disassembled perspective view at the time of the de-energization inside the energization experience apparatus of this invention. Example 2 A sketch drawing of the energizing experience device of the present invention in a cane. Example 3 A sketch drawing of the energizing experience device of the present invention at the hand of an umbrella. Example 3 is a sketch drawing the current-carrying experience device of the present invention on the hand of a umbrella and a stone bump.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1, 2, 3, and 4.

  The present invention is a transparent case 1 in which a transparent plate 2 is folded three times and a conductive metal foil 5 that is not joined at the central top is pasted on the outer two surfaces, and an LED 4 is fixed on the outer surface, and the same material is folded in a valley. 3 is a structure in which the button-type batteries 6a and 6b are accommodated between the three and the LED 4 is caused to emit light when the button-type batteries 6a and 6b are dropped. As a device for confirming energization or non-energization, It is to be able to operate.

  The energization unit will be described with reference to FIGS. 1 and 2. First, the rectangular transparent plate 2 is mountain-folded three times, and the conductive metal foil 5 having a single-sided adhesive force is adhered to the two outer surfaces excluding a part of the central mountain-fold so that the two surfaces do not contact at the center. Next, the LED 4 is adhered and fixed to the two surfaces provided with the conductive metal foil 5 so that the anode and the cathode are polarized at the top of the central mountain fold. Two surfaces of the remaining two mountain-folded portions are bent inward, and the short side of the transparent plate is in a state of leaving a slight gap, and the two surfaces have elasticity to which the conductive metal foil 5 is adhered. keeping. When the button-type batteries 6a and 6b are sandwiched between these portions, the positive electrode of the button-type battery 6a and the negative electrode of 6b are in electrical contact with the anode and cathode of the LED by the conductive metal foil 5, respectively, and the LED emits light.

  The transparent case 1 in FIGS. 3 and 4 is assumed to have a width, depth, and height that can be held by a palm of a lower grade and a child, and the energizing portion shown in FIGS. 1 and 2 is included therein. The current-carrying part is composed of a rectangular transparent plate 2 having a short side and a long side slightly smaller than the transparent case 1 and excellent in hinge resistance, a conductive metal foil and an LED attached thereto. The case includes a rectangular valley-shaped transparent plate 3 made of the same material as the current-carrying portion and the button-type battery 6.

  A transparent battery 1 is inserted into the transparent case 1 of FIG. 3 so that the energizing part of FIGS. 1 and 2 and the transparent plate 3 folded in a valley face each other, and a button-type battery 6 is inserted therebetween.

  The current-carrying part and the transparent plate 3 in FIGS. 1 and 2 have the elasticity to bend by pressing the two surfaces from the outside, and to return to the original mountain fold by releasing the pressure. When inserted, the two transparent plates are not fixed, so elasticity is maintained. Therefore, the transparent plate on the side on which the button-type battery 6 has moved is deeply cut into the mountain fold by the weight of the button-type battery 6 or the like, and is pinched by making the mountain fold more acute.

  Hereinafter, with reference to FIGS. 1, 3, 4, 5, and 6, a practical example 1 in which the device of the present invention is energized and de-energized will be described.

  FIG. 5 shows the energized state in FIG. The button-type battery 6 is moved by dropping the transparent case 1 of FIG. 3 by its own weight, such as turning it upside down, by swaying it down, or by tapping on a flat plate placed elsewhere, The transparent plate 2 of the energizing part of FIG. 1 is sandwiched between two surfaces provided with the folded conductive metal foil 5 and brought into conductive contact, whereby the LED is turned on and emits light.

  FIG. 6 shows a non-energized state of the energizing portion in FIG. The button-type battery 6 is moved by dropping the transparent case 1 of FIG. 3 by its own weight, such as turning it upside down, by swaying it down, or by tapping on a flat plate placed elsewhere, The transparent plate 2 is sandwiched between the two surfaces of the transparent plate 3, whereby the transparent plate 2 of the energizing portion in FIG.

  For energization, as shown in FIGS. 3 and 4, an elastic cloth adhesive tape or silicon rubber 7 is attached to the bottom of the transparent case 1, and the bottom lid is pressed to form a button type battery. Can move, and can be clamped and electrically connected to the energizing portion to light the LED.

  A second embodiment using the apparatus of the present invention will be described below with reference to FIG.

  7 is a transparent or translucent material having a cane-like grip portion and a stone protrusion, and the device of Example 1 shown in FIGS. 3 and 4 is built therein.

  The device of the present invention, such as a gripping part or a stone protrusion, is energized by urging the cane down, hitting the ground, etc., and the LED is turned on to emit light. By performing the same operation upside down, it is de-energized and turned off. In FIG. 7, the grip portion is turned on by pressing the bottom lid portion, but the device of the present invention can be used even if it is turned upside down.

  A third embodiment using the apparatus of the present invention will be described below with reference to FIGS.

  FIG. 8 shows a case where the hand portion of the umbrella has a hollow structure and is made of a transparent or translucent material, and the apparatus of Embodiment 1 shown in FIGS. 3 and 4 is built therein.

  FIG. 9 shows a device of the present invention, which is covered with a waterproof or transparent translucent silicon rubber or the like and fitted on a stone protrusion of an umbrella.

  The device of the present invention of the hand portion and the stone protrusion portion is energized by turning on the umbrella, and the LED is turned on to emit light. When the umbrella is closed, it is upside down, and it is turned off by turning off the swinging force, lightly hitting the ground, etc.

  It can be used as science education materials such as the field of electricity in science education at elementary and junior high schools, current, and the mechanism of electrical circuits.

  It can be used as an assembled toy for scientific play, and as a toy for “easy to make flashlight”.

  It can be used as an auxiliary tool with safety when walking or raining, such as “shining cane” and “shining umbrella” that can be easily visually confirmed from the surroundings.

1 Transparent case 2 Transparent plate (mountain folding)
3 Transparent plate (Taniori)
4 LED
5 Conductive metal foil 6 Button-type battery 6a Button-type battery (positive electrode)
6b button type battery (negative electrode)
7 Fabric adhesive tape or silicone rubber

Claims (6)

  A button-type battery is positioned between the energizing part, which is a structure composed of a transparent plate, conductive metal foil, and LED, and a valley-folded transparent plate, and the button-type battery is inserted into the energizing part to energize the LED. Is turned on and turns off and turns off when the button-type battery is removed. The energizing part is a rectangular transparent plate with excellent hinge resistance that has been folded three times. A conductive metal foil having a single-sided adhesive force is stuck so as not to contact at the center, and the LED is fixed to the two sides of the mountain fold so that the anode and the cathode are polarized, and the other two The two sides bent inside the mountain folds of the place have a structure in which the conductive metal foil is stuck and a slight gap is left while maintaining elasticity, and when the button-type battery is stuck there, the LED is turned on An energizing experience device characterized by being.   The energizing unit according to claim 1, wherein the device has a cylindrical shape, a rectangular parallelepiped, etc., a transparent case having a width, a depth, and a height that can be held by a palm of a child or an infant whose grade is low. This is a device that has a folding transparent plate and a button-type battery. The button-type battery can be dropped by the weight of the button-type battery itself, swayed down, or lightly struck on other flat plates. The energization experience apparatus according to claim 1, characterized in that the moving and energized or de-energized structure is used to make electrical contact by utilizing the weight of the button-type battery and the LED is turned on or off.   The device is a familiar material such as a transparent case, hinge-resistant transparent plate, conductive metal foil, LED, button-type battery, cloth adhesive tape or silicon rubber, and is compact without using a conductive wire, and has a bottom portion. The button-type battery is moved by pressing the bottom of the lid by applying an elastic cloth adhesive tape or silicon rubber, and the LED is turned on by conducting contact with the energizing portion according to claim 1. The energization experience apparatus according to claim 1 or claim 2.   The device does not fix two of the hinge-resistant mountain folded and valley folded rectangular transparent plates enclosed in the transparent case, so that the button-type battery moves in the case due to its weight, etc. The energization experience apparatus according to any one of claims 1 to 3, wherein the moved side is pinched by a valley portion having a sharper angle.   The device is built in a transparent or semi-transparent material with a cane-like grip or stone protrusion, and the LED of the hand or stone protrusion is lit by light hitting on the ground. The apparatus can be used even when the apparatus is turned upside down, wherein the apparatus is turned off and turned off by turning the operation upside down, or turned off when the grip part presses the bottom cover part. The energization experience apparatus according to any one of claims 1 to 4.   The device has a hollow structure with a hollow structure and is embedded in a transparent or semi-transparent material, or is covered with a transparent or semi-transparent silicon rubber or the like that is waterproofed on a stone protrusion, and the umbrella is spread out. The LED is turned on by a biasing force, etc., when the umbrella is closed, it is upside down, and is turned off by turning off the swinging force, lightly hitting the ground, etc. The energization experience apparatus according to any one of 5.

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