CN209823618U - Self-generating module - Google Patents

Abstract

The utility model relates to a from electricity generation module, include the plastic support, be located the first magnet and the second magnet of plastic support first direction both sides, be located the plastic support from top to bottom the outside with first magnet with the first chase and the second chase of second magnet contact, be located the plastic support with first chase coil between the second chase, be located the coil iron core and with the fixed toggle switch handle of the one end of iron core, the iron core is configured to be in toggle switch drives down and makes the passage the magnetic flux change of coil, the coil is used for experiencing the magnetic flux change and produces electric potential. The self-generating module is more exquisite, exquisite and compact in structure, and is convenient to apply to more fields.

Description

Self-generating module

Technical Field

The utility model relates to an electrician's electronic switch panel field particularly, relates to a from electricity generation module for switch.

Background

At present, some objective problems commonly exist in a self-generating switch with a reset function, for example, each component in the self-reset generating device in the switch has high requirement on an installation space and large pressing force degree, and the experience of a user is greatly influenced. The overall dimension of the self-generating module on the market is generally larger, so that the internal space of the product is too compact, and certain risks can exist in the quality of the product. The consumer feels less than optimal.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve current from generating electricity module structure compactedness, the great problem of size provides a from generating electricity module, include the plastic support, be located the first magnet and the second magnet of plastic support first direction both sides, be located the plastic support from top to bottom the outside with first magnet with the first chase and the second chase of second magnet contact, be located the plastic support with first chase coil between the second chase, be located the iron core of coil and with the fixed toggle switch handle of the one end of iron core, the iron core is configured to be in toggle switch drives down and makes and pass through the magnetic flux change of coil, the coil is used for experiencing the magnetic flux change and produces electric potential.

Further, the plastic support comprises a central part wrapped by the coil and a column part connected with the central part, the column part is located on the periphery of the central part, and the first magnet and the second magnet are located between the adjacent columns.

Further, a hollow cavity is arranged in the central part, and the iron core is arranged in the hollow cavity.

Furthermore, the central part is positioned in the hollow cavity and is provided with a first bulge and a second bulge which are oppositely arranged, and the iron core is positioned between the first bulge and the second bulge.

Further, the iron frame is in contact with the first magnet and the second magnet in a first direction, the iron frame is provided with an iron frame protrusion extending from the iron frame body to a direction close to the coil in a second direction, and the second direction is perpendicular to the first direction.

Further, the iron core is configured to be driven by the toggle switch to be switched from a state of being in contact with the first iron frame or the second iron frame to a state of not being in contact with the first iron frame and the second iron frame.

Further, the iron core is configured to be driven by the toggle switch to be switched from a state of being in contact with the iron frame protrusion of the first iron frame or the iron frame protrusion of the second iron frame to a state of not being in contact with the iron frame protrusion of the first iron frame and the iron frame protrusion of the second iron frame.

Further, the shape of the central portion is square, and the column portions are located at four corners of the central portion.

Further, the arrangement direction of the first magnet and the second magnet is consistent with the opening direction of the hollow cavity, the height of the first magnet and the height of the second magnet are consistent with the height of the cylinder part, the first iron frame and the second iron frame are located on the upper outer side and the lower outer side of the central part, and the distance between the outermost sides of the first iron frame and the second iron frame is consistent with the height of the cylinder part.

Further, the overall shape of the self-generating module is a direction, the height direction of the self-generating module is consistent with the height direction of the column part, the height of the self-generating module is the same as the height of the column part, the width direction of the self-generating module is consistent with the distance direction of the outermost sides of the first magnet and the second magnet, and the width of the self-generating module is equal to the distance of the outermost sides of the first magnet and the second magnet; the width of the self-generating module is 14.9mm, and the height of the self-generating module is 6.8 mm.

The utility model discloses for prior art, change from the overall dimension of generating module, reduce development cost, do from the generating module more exquisite, it is exquisite, be convenient for use in more fields aspect, through Faraday's law, lenz's law, change the overall dimension of product, the design is reliable, has guaranteed the generated energy of coil.

Drawings

The features and advantages of the invention will be more clearly understood by reference to the accompanying drawings, which are schematic and should not be understood as imposing any limitation on the invention, in which:

fig. 1 is an overall schematic view of a self-generating module in some embodiments of the present invention;

fig. 2 is an exploded schematic view of a self-generating module in some embodiments of the present invention;

fig. 3 is a schematic cross-sectional view of a self-generating module according to some embodiments of the present invention;

fig. 4 is a schematic view in lateral cross-section of a self-generating module in some embodiments of the invention;

fig. 5 is a schematic view of a plastic bracket assembly in a self-generating module in accordance with some embodiments of the present invention;

fig. 6 is a schematic view of an chase in a self-generating module in some embodiments of the present invention;

fig. 7 is a schematic size view of a self-generating module in some embodiments of the invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

As shown in fig. 1 to 4, the utility model provides a self-generating module 100, including plastic support 110, be located first magnet 121 and second magnet 122 of plastic support 110 first direction both sides, be located the plastic support 110 about the outside with first magnet 121 and the first chase 131 and the second chase 132 of second magnet 122 contact, be located plastic support 110 with first chase 131, coil 140 between the second chase 132, be located the iron core 150 in coil 140 and with the toggle switch handle 160 that the one end of iron core 150 is fixed, iron core 150 is configured to make under the toggle switch handle 160 drives and passes through the magnetic flux change of coil 140, the coil is used for feeling the magnetic flux change and produces the electric potential. Specifically, the movement of the core 150 may be a linear movement, a rocking movement, or a rotational movement as long as the magnetic flux passing through the coil 140 can be changed. The utility model discloses a guarantee that the design is reliable, guarantee to produce the electric potential after the change design and equal, revised the quantity of magnet. The specific design process is as follows:

e ═ d Φ × n)/dt; Φ ═ B × S, where E is the induced electromotive force, and the unit is V; phi is magnetic flux, unit Wb; n is the number of coil bundles; b is magnetic induction intensity; s is the coil area; t is time; when the external dimension of the product is reduced, namely N is reduced, the magnetic induction intensity B needs to be increased under the condition of keeping E, S unchanged through the formula; therefore, a magnet is more used in the spare parts of the self-generating module than in the market. Finally, the product has a fine and exquisite appearance, reduces the internal space and can be widely applied to more fields.

The plastic bracket 110 includes a central portion 111 surrounded by the coil 140 and a cylindrical portion 112 connected to the central portion 111, the cylindrical portion 112 being located around the central portion 111, and the first magnet 121 and the second magnet 122 being located between the adjacent cylindrical portions 112. The overall dimension of the plastic bracket 110 is more than twice smaller than that of the plastic bracket with the same specification parameter on the market.

A hollow cavity 1111 is formed in the central portion 111, the core 150 is disposed in the hollow cavity 1111, and the core 150 moves in the hollow cavity 1111, thereby changing magnetic flux.

The central portion 111 is located in the hollow cavity 1111 and is provided with a first protrusion 1112 and a second protrusion 1113 which are oppositely arranged, the iron core 150 is located between the first protrusion 1112 and the second protrusion 1113, the toggle switch handle 160 drives the iron core 150 to move, and the iron core 150 swings with the first protrusion 1112 or the second protrusion 1113 at a rotation fulcrum, so that the magnetic flux changes. The first protrusion 1112 and the second protrusion 1113 are located in the middle of the hollow cavity 1111.

The first iron frame 131 and the second iron frame 132 are in contact with the first magnet 121 and the second magnet 122 in a first direction, and the first iron frame 131 and the second iron frame 132 are provided with iron frame protrusions 133 which extend from the iron frame body 130 to a direction close to the coil in a second direction perpendicular to the first direction.

The iron core 150 is configured to be switched from a state of being in contact with the first iron frame 131 or the second iron frame 132 to a state of not being in contact with the first iron frame 131 and the second iron frame 132 by the toggle switch handle 160. When the core 150 is in contact with the first iron frame 131 or the second iron frame 132, the core 150 transmits magnetic flux, and when the core 150 is not in contact with the first iron frame 131 or the second iron frame 132, the core 150 does not transmit magnetic flux, and at this time, the magnetic flux passing through the coil 140 is changed, thereby generating electromotive force at both ends of the coil. The length of the iron core 150 is configured to be matched with the width of the first iron frame 131 and the second iron frame 132.

Further, the iron core 150 is configured to be switched from a state of contacting with the iron frame protrusion 133 of the first iron frame 131 or the iron frame protrusion 133 of the second iron frame 132 to a state of not contacting with the iron frame protrusion 133 of the first iron frame 131 and the iron frame protrusion 133 of the second iron frame 132 by the toggle switch handle 160. The principle is similar to the above, and at this time, the magnetic flux changes, and electromotive force is generated at both ends of the coil 140, so that the iron core 150 does not need to swing greatly by the action of the iron frame protrusion 133, and the size is reduced. The length of the core 150 is configured to be adapted to the distance between the two chase projections 133 of the first chase 131 and the second chase 132.

In the plastic bracket 110, the central portion 111 has a square shape, and the column portions 112 are located at four corners of the central portion. The arrangement direction of the first magnet 121 and the second magnet 122 is consistent with the opening direction of the hollow cavity 1111, the height of the first magnet 121 and the second magnet 122 is consistent with the height of the cylinder portion 112, the first iron frame 131 and the second iron frame 132 are located at the upper and lower outer sides of the central portion 111, and the distance between the outermost sides of the first iron frame 131 and the second iron frame 132 is consistent with the height of the cylinder portion 112. The structure is compact.

The overall shape of the self-generating module 100 is a direction, the height direction of the self-generating module 100 is consistent with the height direction of the column part 112, the height of the self-generating module 100 is the same as the height of the column part 112, the width direction of the self-generating module 100 is consistent with the distance direction between the outermost sides of the first magnet 121 and the second magnet 122, and the width of the self-generating module 100 is equal to the distance between the outermost sides of the first magnet 121 and the second magnet 122; the self-generating module 100 is 14.9mm in width, 6.8mm in height, 18.04mm in overall length and 11.54mm in main body length. Compared with the size of a self-generating module in the market. The length direction of the self-generating module 100 is consistent with the longitudinal direction of the sectional view, and the width direction of the self-generating module 100 is consistent with the transverse direction of the sectional view. The plastic bracket 110 is shaped like an I as a whole.

The first iron frame 131 and the second iron frame 132 are identical in shape, and the first magnet 121 and the second magnet 122 are identical in shape; further, a shield 170 is disposed outside the first magnet 121 and the second magnet 122.

The utility model discloses for prior art, change from the overall dimension of generating module, reduce development cost, do from the generating module more exquisite, it is exquisite, be convenient for use in more fields aspect, through Faraday's law, lenz's law, change the overall dimension of product, the design is reliable, has guaranteed the generated energy of coil.

In the present application, the terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The term "plurality" means two or more unless expressly limited otherwise.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a from electricity generation module, its characterized in that includes the plastic support, is located the first magnet and the second magnet of plastic support first direction both sides, be located the plastic support about the outside with first magnet with first iron frame and the second iron frame of second magnet contact, be located the plastic support with first iron frame, coil between the second iron frame, be located the coil and with the toggle switch handle that the one end of iron core is fixed, the iron core is configured to be in the toggle switch handle drives and makes under the drive the magnetic flux change through the coil, the coil is used for experiencing the magnetic flux change and produces electric potential.

2. The self-generating module according to claim 1, wherein the plastic support includes a central portion wrapped by the coil and a column portion connected to the central portion, the column portion being located around the central portion, the first and second magnets being located between the adjacent column portions.

3. The self-generating module according to claim 2, wherein a hollow cavity is provided in the central portion, and the iron core is disposed in the hollow cavity.

4. A self-generating module according to claim 3, wherein the central portion is provided with a first protrusion and a second protrusion disposed opposite to each other in the hollow cavity, and the core is disposed between the first protrusion and the second protrusion.

5. The spontaneous electrical module as claimed in any one of claims 1 to 4, wherein the first and second iron frames are in contact with the first and second magnets in a first direction, and the first and second iron frames are provided with iron frame protrusions extending from the iron frame body in a direction approaching the coil in a second direction perpendicular to the first direction.

6. The self-generating module according to claim 5, wherein the plunger is configured to be switched from a state of contact with the first bezel or the second bezel to a state of non-contact with the first bezel and the second bezel by the toggle switch handle.

7. The self-generating module according to claim 5, wherein the plunger is configured to be switched from a state of contact with the bezel projection of the first bezel or the bezel projection of the second bezel to a state of non-contact with the bezel projection of the first bezel and the bezel projection of the second bezel by the toggle switch handle.

8. A self-generating module according to claim 3, wherein said central portion is square in shape and said post portions are located at the four corners of said central portion.

9. The self-generating module according to claim 8, wherein the first magnet and the second magnet are arranged in a direction consistent with the opening direction of the hollow cavity, the first magnet and the second magnet are arranged in a height consistent with the height of the column portion, the first iron frame and the second iron frame are located on the upper and lower outer sides of the central portion, and the distance between the outermost sides of the first iron frame and the second iron frame is consistent with the height of the column portion.

10. The self-generating module according to claim 9, wherein the overall shape of the self-generating module is a direction, the height direction of the self-generating module is consistent with the height direction of the column portion, the height of the self-generating module is the same as the height of the column portion, the width direction of the self-generating module is consistent with the distance direction between the outermost sides of the first magnet and the second magnet, and the width of the self-generating module is equal to the distance between the outermost sides of the first magnet and the outermost sides of the second magnet; the width of the self-generating module is 14.9mm, and the height of the self-generating module is 6.8 mm.