CN212486361U - Micro-kinetic energy power generation module - Google Patents

Abstract

The utility model discloses and provides a fine motion energy power generation module capable of greatly improving magnetic flux and generating capacity, which comprises a shell movable frame and a power generation module arranged on the shell movable frame, wherein the left end of the shell movable frame is provided with a containing cavity, the power generation module comprises an upper magnetic conductive sheet, a lower magnetic conductive sheet and a magnet which are arranged in the containing cavity, the power generation module also comprises a U-shaped metal cavity which is arranged on the shell movable frame and is matched with the shell movable frame in a rotating way, a coil framework which is matched with the U-shaped metal cavity and assembled into a whole, a coil which is wound on the coil framework, and a T-shaped iron sheet which is inserted from the right side to the left side and penetrates the U-shaped metal cavity and the coil framework and then extends into the containing cavity, the T-shaped iron sheet is positioned between the upper magnetic conductive sheet and the magnetic conductive sheet, the T-shaped iron sheet cuts magnetic lines of force between the upper magnetic conductive sheet and the lower magnetic conductive sheet, and then the coil induces current, so that self-power generation is realized. The utility model discloses be applied to switch technical field.

Description

Micro-kinetic energy power generation module

Technical Field

The utility model belongs to the technical field of the switch technique and specifically relates to a fine motion can power generation module.

Background

In the prior art, in the field of indoor lighting, 86-type rocker wired switches are mainly installed on walls to control the on and off of lamps, which requires detailed and accurate planning of the positions of the switches before indoor decoration, operations such as pre-embedding switch bottom boxes, slotting, pre-embedding PVC pipes, cable penetrating and the like on the walls are required, time and labor are wasted, pipeline wires and the like are wasted, more importantly, if the switch layout is unsatisfactory, the wall wiring must be re-excavated, otherwise, the change cannot be carried out, and the switches cannot be installed in places with damp and explosion-proof requirements, aiming at the problem, a self-generating wireless switch is developed on the market at present, the switch is different from the traditional switch, a battery is not required, a power line is not required to be connected, only a button of the switch is required to be pressed by fingers, and the generated mechanical energy can be converted into electric energy through a self-generating module, thereby controlling the on-off of various electrical equipment such as lamps, air conditioners, televisions and the like.

But prior art from electricity generation wireless switch has the technical problem that the generated energy is few and inner structure leakproofness is poor, can not adapt to most moist and have the place of explosion-proof requirement moreover, leads to the oxidation easily to rust after long-time the use for wireless switch can not normally work, and inside module occupation space is huge, and a plurality of switches can not be placed simultaneously to the switch box under the standard specification, and not only extravagant installation space has still increased customer installation cost.

Disclosure of Invention

The utility model aims to solve the technical problem that overcome prior art not enough, provide a fine motion that can promote magnetic flux and generated energy by a wide margin and can generate electricity the module.

A technical scheme that fine motion energy power generation module adopted is: the utility model provides a fine motion can power module it includes the casing adjustable shelf and sets up power module on the casing adjustable shelf, the left end of casing adjustable shelf is equipped with and holds the chamber, power module is including locating last magnetic conductive plate, lower magnetic conductive plate and the magnet that holds the intracavity, power module is still including locating the casing adjustable shelf on with casing adjustable shelf normal running fit's U type metal cavity, with U type metal cavity looks adaptation and equipment coil skeleton, winding as an organic whole coil skeleton, winding coil on the coil skeleton and from the right side insert and pass U type metal cavity with coil skeleton stretches into again hold the T type iron sheet of intracavity, T type iron sheet is located the part that holds the chamber is in go up magnetic conductive plate with between the magnetic conductive plate.

Preferably, the left end of the coil framework is provided with two conductive pins, and the conductive pins are electrically connected with the coil.

Preferably, metal elastic sheets are further arranged at two ends of the shell movable frame.

Preferably, the two sides of the U-shaped metal cavity are provided with connecting shaft holes, the inner side of the shell movable frame is provided with a connecting shaft matched with the connecting shaft holes, and the U-shaped metal cavity is in running fit with the shell movable frame through the connecting shaft.

Preferably, the left end of the coil framework is provided with two bulges, and the notch end of the U-shaped metal cavity is provided with two T-shaped notches matched with the bulges.

The utility model discloses beneficial effect with the prior art contrast is: because the utility model relates to a micro-motion energy power generation module, it includes the casing adjustable shelf and sets up the power generation module on the casing adjustable shelf, the left end of casing adjustable shelf is equipped with and holds the chamber, power generation module is including locating last magnetic conductive plate, lower magnetic conductive plate and the magnet in holding the intracavity, power generation module still includes locate on the casing adjustable shelf with casing adjustable shelf normal running fit's U type metal cavity, with U type metal cavity looks adaptation and assemble coil skeleton as an organic whole, wind coil on the coil skeleton and from right to left insert and pass U type metal cavity and coil skeleton stretches into again hold the T type iron sheet in the intracavity, the part that T type iron sheet is located hold the chamber is in go up the magnetic conductive plate with between the magnetic conductive plate, through T type iron sheet is in go up the magnetic conductive plate with do the motion of magnetic line of force cutting between the magnetic conductive plate down, the coil induces current, so that self power generation is realized, the self-inductance coefficient of the coil is increased by adopting the U-shaped metal cavity, the self-induced electromotive force of the coil is greatly promoted, the magnetic flux is greatly increased, when the coil is cut by a magnet, the induced current generated in the coil is greatly promoted compared with the induced current generated in the prior art without additionally arranging the U-shaped metal cavity, and the voltage is also promoted to about 15-25V from the original 5-8V, so the utility model provides a micro-motion energy power generation module which can greatly promote the magnetic flux and the generated energy.

Drawings

FIG. 1 is an exploded view of the micro-motion energy generation module of the present invention;

fig. 2 is an overall structure diagram of the micro-motion energy power generation module of the present invention.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, the module for generating electricity by using micro kinetic energy according to the present invention comprises a housing movable frame 1 and an electricity generating module disposed on the housing movable frame 1, wherein a receiving cavity 101 is disposed at the left end of the housing movable frame 1, the electricity generating module comprises an upper magnetic conductive plate 6, a lower magnetic conductive plate 7 and a magnet 8 disposed in the receiving cavity 101, the electricity generating module further comprises a U-shaped metal cavity 5 disposed on the housing movable frame 1 and rotatably engaged with the housing movable frame 1, a coil frame 2 adapted to the U-shaped metal cavity 5 and assembled into a whole, a coil 3 wound on the coil frame 2, and a T-shaped iron plate 4 inserted from right to left and passing through the U-shaped metal cavity 5 and the coil frame 2 and then extending into the receiving cavity 101, wherein the portion of the T-shaped iron plate 4 located in the receiving cavity 101 is located between the upper magnetic conductive plate 6 and the magnetic conductive plate 7, the T-shaped iron sheet 4 cuts magnetic lines of force between the upper magnetic conductive sheet 6 and the lower magnetic conductive sheet 7, and then the coil 3 induces current to realize self-generation, and the self-inductance coefficient of the coil 3 is increased by adopting the U-shaped metal cavity 5, so that the self-induced electromotive force of the coil 3 is greatly improved, the magnetic flux is greatly increased, when the coil is cut by the magnet, the induced current generated in the coil 3 is greatly improved compared with the induced current generated before the U-shaped metal cavity is not additionally arranged, and the voltage is also improved to about 15-25V from the original 5-8V.

Preferably, the left end of the coil frame 2 is provided with two conductive pins 9, and the conductive pins 9 are electrically connected with the coil 3.

Preferably, metal elastic sheets 10 are further arranged at two ends of the shell movable frame 1.

Optimized, 5 both sides of U type metal cavity are equipped with connecting shaft hole 51, 1 inboard of casing adjustable shelf be equipped with the connecting axle 11 of connecting shaft hole 51 looks adaptation, U type metal cavity 5 pass through the connecting axle 11 with 1 normal running fit of casing adjustable shelf.

Preferably, the left end of the coil frame 2 is provided with two protrusions 21, and the notch end of the U-shaped metal cavity 5 is provided with two T-shaped notches 52 matched with the protrusions 21.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention, therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (5)

1. The utility model provides a fine motion can power generation module, it includes casing adjustable shelf (1) and sets up the power generation module on the casing adjustable shelf (1), its characterized in that: the left end of the shell movable frame (1) is provided with an accommodating cavity (101), the power generation module comprises an upper magnetic conductive sheet (6), a lower magnetic conductive sheet (7) and a magnet (8) which are arranged in the accommodating cavity (101), the power generation module also comprises a U-shaped metal cavity (5) which is arranged on the shell movable frame (1) and is in running fit with the shell movable frame (1), a coil framework (2) which is matched with the U-shaped metal cavity (5) and assembled into a whole, a coil (3) wound on the coil framework (2), and a T-shaped iron sheet (4) which is inserted from the right to the left and penetrates through the U-shaped metal cavity (5) and the coil framework (2) and then extends into the accommodating cavity (101), the T-shaped iron sheet (4) is positioned between the upper magnetic conductive sheet (6) and the magnetic conductive sheet (7) at the part of the accommodating cavity (101).

2. A module for micro-kinetic energy generation as claimed in claim 1, wherein: the left end of coil skeleton (2) is equipped with two conductive needles (9), conductive needle (9) with coil (3) electric connection.

3. A module for micro-kinetic energy generation as claimed in claim 1, wherein: and metal elastic sheets (10) are further arranged at the two ends of the shell movable frame (1).

4. A module for micro-kinetic energy generation as claimed in claim 1, wherein: u type metal cavity (5) both sides are equipped with connection shaft hole (51), casing adjustable shelf (1) inboard be equipped with connect connecting axle hole (51) connecting axle (11) of looks adaptation, U type metal cavity (5) are passed through connecting axle (11) with casing adjustable shelf (1) normal running fit.

5. A module for micro-kinetic energy generation as claimed in claim 1, wherein: the left end of coil skeleton (2) is equipped with two arch (21), the breach end of U type metal cavity (5) be equipped with two T type breach (52) of protruding (21) looks adaptation.

Images