TWM414760U - Vibration displacement power generation module - Google Patents

Description

M414760 V. New Description: [New Technology Field] This creation is related to power generation modules, especially for a power generation module that generates electricity by vibration or displacement. [Prior Art] - Many people use a lot of remote controls in their daily lives, such as remote controls for home appliances such as TVs, air conditioners, remote controls for building doors, remote controls for car-controlled locks, or Wii games. The control of the joystick, etc., these remote controls are usually powered by batteries, so it is easy to cause the battery to suddenly lose power but no other battery can be replaced, which is quite inconvenient. However, the aforementioned remote controllers are all movable devices that can be moved by the user, and some of them are carried by people and shake with the human body for a long time, and even the control joystick of the game machine is more and more deliberately severely degraded by the user. shake. In other words, the user has inadvertently applied a lot of kinetic energy to the remote controllers. If the kinetic energy can be converted into electric energy in the remote controller, the power required for the remote controller can be supplied, which not only saves money and energy, but also avoids Suddenly no electricity. Even the 'most remote controls are used for a short time each time. The user can shake the remote control for a few seconds to provide kinetic energy before use. The converted power may be enough to provide the remote control for the power. One is that the remote control does not require any battery. [New content] The main purpose of this creation is to provide a vibration displacement power generation module 3 M414760 group 'power generation by vibration or displacement' to save money and energy, and can be used to facilitate the convenience of moving appliances that need to use electric energy. . In order to achieve the above object, the vibration displacement power generation module provided by the present invention comprises: a housing having an accommodating space; a coil device disposed on the housing, and the position of the device corresponding to the accommodating a circuit device is electrically connected to the coil device, and the circuit device has a storage element; and a first magnetic body is disposed in the housing a space is disposed, and is linearly movable between a front side and a rear side of the accommodating space, and a magnetic field of the first magnetic body can be mounted through the coil; and a movable device, such as a remote controller, etc., has vibration or When displacement, it can be easily reported that the first magnetic body 'two internal displacement' even on the front side and the rear side of the accommodation causes the magnetic flux passing through the coil device to change, and the inlet device generates electric current and stores the electric energy therein. The power storage component is used to provide the source of the singularity, and the power of the movable material m can be increased, and (4) can be improved: the vibration provided by the present invention is described. "In this creative collar" '一解二=:r should be able to limit the characteristics of the patent application of this creation, assembly or timing, material structure, W follow-up implementation details, the lieutenant should be able to It is used to explain this creation, not to use ''q/千,Μ付疋 例 围 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 414 明 明 明 明 明 明 明 明 明 明 明 明Contents and features, the following is a schematic cross-sectional view of a movable device provided with the power generating module provided by the first preferred embodiment of the present invention; The Ray If diagram is a schematic cross-sectional view of the vibration displacement power generation module provided by the second preferred embodiment; and the fourth section of the vibration displacement power generation module provided by the present embodiment schematic diagram. The first person is hereby made, and in the embodiments and drawings which will be described below, the same reference numerals indicate (4) or similar structural features. Please refer to the first figure. The vertical power generation module H) provided by the first preferred embodiment includes a housing 2G, a coil device %, a circuit arrangement 40, and a first magnetic body. %. The housing 20 can be made of a non-ferroelectric material such as ingot, plastic steel, acryl, etc., and the housing 20 has an accommodation space 22. The coil device 3A includes a conductor 32 II coil winding 34. The conductor 32 is fixed to the outside of the casing 2G by an epoxy machine or a strong adhesive, and the coil winding 34 is wound around 32. . The position of the coil device 30 corresponds to the front 5 M 414760 side 222 and a rear side 224 of the accommodating space u, and a central axis 36 of the coil device 3 is connected to the accommodating space 22 Vertical to each other. The two ends of the coil winding 34 are electrically connected to the circuit 4G and the circuit device 40 has a rectifier circuit 41 and a power storage component 42. The power storage component 42 can be a capacitor or a rechargeable battery. The first magnetic body 50 is an elongated magnet, which is disposed in the accommodating space 22 ′ of the casing 2 并 and is limited by the accommodating space 22 and can only be linear between the front side 222 and the rear side 224 . Moving, the magnetic pole direction of the first magnetic body is kept perpendicular to the front and rear directions of the accommodating space 22, and the central axis 36 of the line _30 is kept parallel to the magnetic pole direction of the first magnetic body 50. , that is, perpendicular to the first magnetic body, such that the first magnetic body 5 passes through the coil device 3G, and when the first magnetic (four) moves within the accommodation space, Through the coil device 3: the r device 3 is made. The induction shaft is generated; the electric energy generated is stored in the electric storage element 42. As shown in the second aspect, the vibration displacement power generating die provided by the above-mentioned creation is electrically movable 11 with 60, and the movable device 60 has a device, which uses =7:, the movable device 6 is - remote control device: = Circuit of the money output terminal 622 The circuit device can be connected to the power generation module 1 or a circuit device, or can be placed in the same circuit as the circuit. In the actual punching, the die is electrically connected to the casing of the actuator (4), and the body 2 is integrated into the body. However, the casing 20 may be provided separately from the movable body 60 to the movable device 6〇. . When the movable device 0 is carried by the user or is used, the vibration or displacement of the movable device 6 can easily displace the _ magnetic body % in the accommodating space η even in the accommodating space 22 The front side 222 and the rear side 224 are reciprocatingly moved to generate electric energy, which can be used to provide power for the electric unit 62 to save money and energy, and can avoid the movable device 6g. Therefore, the convenience can be improved. In fact, the power generation group 1G can be used for any movable object or even the human body, and is not limited to appliances that need to use electric energy. As shown in the third embodiment, the oscillating space 22 of the housing 20 of the present invention may have at least one elastic member 70 in the accommodating space 22 of the housing 20, and the elastic member 70 may be disposed in the accommodating space. 22, the front side buckle and the rear side 224 are more often in contact with the first magnetic body, or the front side 222 and the rear side 224 may be respectively provided with _ elastic member %, so that the first magnetic body 50 can be avoided. The casing 20 generates noise due to the collision, and the money transfer rate of the magnetic body 5〇 is further increased, thereby increasing the power generation amount of the two power generation modules 10. As shown in the fourth figure, each of the elastic members 7 can be replaced by a second magnetic body 8 repulsion with the first magnetic body 50, thereby achieving the effect of avoiding noise generation and increasing power generation. Finally, it must be stated again that the constituent elements disclosed in the foregoing embodiments are merely illustrative and are not intended to limit the substitution or variation of other equivalent elements in the scope of the present invention. Covered. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic cross-sectional view of a vibration displacement power generation module provided by a first preferred embodiment of the present invention. The first figure is provided with the first preferred embodiment of the present invention. A schematic cross-sectional view of a movable device of a power generating module; the third drawing is a schematic cross-sectional view of a vibration displacement power generating module provided by a second preferred embodiment; and the fourth drawing is a third preferred embodiment A schematic cross-sectional view of a vibration displacement power generation module provided by the embodiment. [Main component symbol description] Vibration displacement power generation module 10 Housing 20 accommodating space 22 Front side 222 Rear side 224 Coil device 30 Conductor 32 圏 winding 34 Central axis 36 Circuit device 40 Power storage element 42 First magnetic body 50 Rectification Circuit 41 movable device 60 signal output terminal 622 elastic member 70 second magnetic body 80 electric unit 62

Claims (1)

Patent application scope: 1. A vibration displacement power generation module, comprising: a housing having an accommodating space; a coil device disposed on the housing and the position of the coil device corresponding to the accommodating a circuit device is electrically connected to the coil device, and the circuit device has a power storage component; and a first magnetic body is disposed in the housing The space is linearly movable between the front side and the rear side of the accommodating space and the magnetic field of the first magnetic body can pass through the coil device. 2. The vibration displacement power generation module of claim 1, wherein the coil device comprises a conductor connected to the housing, and a coil winding wound around the conductor and electrically connected to the circuit device . 3. The vibration displacement power generation module according to claim 2, wherein a central axis of the coil device is perpendicular to a moving direction of the first magnetic body. 4. The vibration displacement power generation module according to claim 3, wherein the housing is provided in a movable device, and the circuit device is electrically connected to one of the movable devices. 5. The vibration displacement power generation module of claim 4, wherein the housing is integrally connected to the movable device. 6. The vibration displacement power generation module according to any one of claims 1 to 5, wherein the housing has a housing having at least one elastic member and the miscellaneous member is disposed in the housing The front side or the back side of the space. The oscillating displacement power generating module according to claim 6, wherein the housing has two elastic members respectively disposed on the front side and the rear side thereof. 8. The vibration displacement power generation module according to any one of claims 1 to 5, wherein the housing of the housing further has at least one second magnetic body repelling the first magnetic body, And the second magnetic system is disposed on a front side or a rear side of the accommodating space. 9. The vibration displacement power generation module according to claim 8, wherein the housing has two second magnetic bodies in the housing space, which are respectively disposed on the front side and the rear side of the housing space.