CN211321186U - Z-shaped magnetic conduction plate magnetic generating device - Google Patents

Abstract

The utility model discloses a Z shape magnetic conduction board magnetism generating device, including coil pack and the permanent magnet subassembly that can relative motion, coil pack includes coil and magnetic conduction skeleton, the permanent magnet subassembly is unanimous and the contactless first magnetic conduction board of each other of structure and the permanent magnet that is located between first magnetic conduction side arm and the second magnetic conduction side arm, second magnetic conduction board, the free end of foretell first magnetic conduction side arm switches on with the horizontal section contact of second magnetic conduction board when the free end of first magnetic conduction side arm switches on with the first horizontal section contact of first magnetic conduction board, and the free end of first magnetic conduction side arm can switch on with the first horizontal section of first magnetic conduction board along with coil pack and permanent magnet subassembly relative motion alternately, the first horizontal section contact of second magnetic conduction board switches on. The utility model relates to an ingenious, whole magnetic circuit is simple, and it is few to constitute the part, constitutes part simple structure, and manufacturing is swift, low in manufacturing cost is honest and clean.

Description

Z-shaped magnetic conduction plate magnetic generating device

Technical Field

The utility model relates to a magnetism generates electric installation, more specifically says, relates to a Z shape magnetic conduction board magnetism generates electric installation.

Background

Along with the wide application of mechanical energy pressing power generation technology in the fields of smart home, industrial control and the like, products applying the technology appear in large quantity as follows: self-generating wireless doorbells, self-generating passive wireless switches and the like. The LED lamp is widely accepted by people because of the advantages of no need of wiring, no need of batteries, environmental protection, time and labor saving and wire saving in the installation process and the like. However, the existing press power generation device also has a plurality of defects, such as: complex structure, more parts, high manufacturing cost, inconvenient use and installation and the like,

for example, chinese patent No. ZL2015100355978, the date of application for bulletin is 2016, 8 and 17, and the name of creation of the utility model is: the application relates to a double-magnet key type self-generating device, which comprises a coil, a plastic piece for winding the coil, a non-magnetic-conductive material connecting part, a magnet, a yoke piece, an iron core and other main components. The coil is wound on the plastic part, a through hole is formed in the middle of the plastic part, and the iron core penetrates through the plastic part through the through hole. The magnets are arranged on the left and the right, and the N, S two poles of the magnets are respectively contacted with four yoke pieces, namely, one magnet is respectively clamped between the left two yokes and the right two yokes, and the similar U-shaped magnet is formed by the way that the yokes extend. The N, S poles of the left and right magnets are placed in opposite directions, i.e., if the left magnet is oriented with its north pole facing upward, the right magnet is oriented with its south pole facing upward. The two ends of the iron core are respectively positioned between the left magnetic yoke and the right magnetic yoke, namely positioned in the groove of the U-shaped magnet. The left and right magnets and the magnetic yoke are connected together through a non-magnetic material-conductive connecting part to form an integrated key which can move up and down relative to the iron core. Although the purpose of generating electricity by magnetism can be achieved, the structure is complex, the number of parts is large, the manufacturing cost is high, and the use and the installation are inconvenient;

for another example, chinese patent No. ZL2016100012224, application publication 2016, 04, 06, the name of the utility model is: the application relates to a key power generation structure, which is characterized by comprising an installation seat, an installation sleeve, upper magnetic conductive iron, a permanent magnet, lower magnetic conductive iron, an electromagnetic coil, C-shaped magnetic conductive iron, an elastic reset structure and an elastic pressing mechanism, wherein an installation space is arranged in the installation seat; the upper magnetic iron, the lower magnetic iron and the permanent magnet are fixedly arranged on the mounting sleeve; the mounting sleeve is arranged on the mounting base through the rotating shafts on the two sides, and the mounting sleeve can swing up and down in the mounting space; the C-shaped magnetic conductive iron is arranged on the mounting seat, the electromagnetic coil is wound on the C-shaped magnetic conductive iron, and two ends of an opening of the C-shaped magnetic conductive iron are respectively positioned at the left side and the right side of the permanent magnet; the elastic reset structure is arranged on the mounting seat; one end of the elastic pressing sheet structure is fixedly connected with the rotating shafts on the two sides of the mounting sleeve respectively, and the other end of the elastic pressing sheet structure is matched with the elastic reset structure so as to drive the upper magnetic conductive iron and the lower magnetic conductive iron to swing up and down. Although the purpose of generating electricity by magnetism can be achieved, the structure is still complex, the manufacturing cost is high, and the use and the installation are inconvenient.

Therefore, the existing pressing power generation device needs to be improved, so that the pressing power generation device is simpler and more effective in structure, more convenient to install and process and lower in production cost.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

An object of the utility model is to overcome foretell not enough, provide a Z shape magnetic conduction board magnetism and give birth to electric installation, adopt the technical scheme of the utility model, simple structure, design benefit, whole magnetic circuit is simple, and the component part is few, and component part simple structure makes processing swift, low in manufacturing cost.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model relates to a Z-shaped magnetic conduction plate magnetic generating device, which comprises a coil component and a permanent magnet component,

the coil assembly comprises a coil and a magnetic conduction framework, the coil is wound on the magnetic conduction framework, and the magnetic conduction framework is provided with a first magnetic conduction side arm and a second magnetic conduction side arm which are oppositely arranged at the left and the right;

the permanent magnet assembly comprises a permanent magnet, a first magnetic conduction plate and a second magnetic conduction plate which are consistent in structure and are not in contact with each other, wherein the first magnetic conduction plate and the second magnetic conduction plate are both of Z-shaped structures which are vertically arranged and respectively comprise a first transverse section, a second transverse section and a connecting section for connecting the first transverse section and the second transverse section; the first transverse section of the first magnetic conduction plate is positioned right above the first transverse section of the second magnetic conduction plate, the connecting section of the first magnetic conduction plate is positioned on the front side of the connecting section of the second magnetic conduction plate, and the second transverse section of the first magnetic conduction plate is positioned right below the second transverse section of the second magnetic conduction plate; the first transverse section of the first magnetic conduction plate and the first transverse section of the second magnetic conduction plate are fixedly connected with the upper pole and the lower pole of the permanent magnet respectively;

the first magnetic conduction side arm and the second magnetic conduction side arm in the coil assembly are respectively positioned at the left side and the right side of the permanent magnet, the free end of the first magnetic conduction side arm is movably arranged between the upper and lower first transverse sections in the permanent magnet assembly up and down, and the free end of the second magnetic conduction side arm is movably arranged between the upper and lower second transverse sections in the permanent magnet assembly up and down, so that when the free end of the first magnetic conduction side arm is in contact conduction with the first transverse section of the first magnetic conduction plate, the free end of the second magnetic conduction side arm is in contact conduction with the second transverse section of the second magnetic conduction plate to form a magnetic conduction loop.

Furthermore, the magnetic conduction framework is of a U-shaped structure.

Furthermore, the magnetic conducting framework in the coil assembly is fixedly arranged in the first shell, the permanent magnet assembly is arranged in the first shell in a vertically movable mode, the first transverse section of the second magnetic conducting plate in the permanent magnet assembly is connected with the bottom wall of the first shell through the first spring, and the button block is fixedly arranged on the first transverse section of the first magnetic conducting plate in the permanent magnet assembly.

Furthermore, the permanent magnet assembly is fixedly arranged in the second shell, the magnetic conducting framework in the coil assembly is arranged in the second shell in a vertically swinging mode, the free end part of the first magnetic conducting side arm in the coil assembly is connected with the free end part of the second magnetic conducting side arm through an insulating rod, the middle part of the insulating rod is provided with a toggle block, and the toggle block is connected with the bottom wall of the second shell through a second spring.

Furthermore, the magnetic conducting framework comprises a first magnetic conducting side arm, a second magnetic conducting side arm and a first magnetic conducting transverse plate, the rear end of the first magnetic conducting side arm is fixedly connected with the rear end of the second magnetic conducting side arm through the first magnetic conducting transverse plate, and the front ends of the first magnetic conducting side arm and the second magnetic conducting side arm are free ends.

Furthermore, the magnetic conduction framework comprises a first magnetic conduction side arm, a second magnetic conduction side arm and a U-shaped magnetic conduction piece, the U-shaped magnetic conduction piece comprises a second magnetic conduction transverse plate, a first magnetic conduction vertical plate and a second magnetic conduction vertical plate, the rear end of the first magnetic conduction vertical plate and the rear end of the second magnetic conduction vertical plate are fixedly connected together through the second magnetic conduction transverse plate, the first magnetic conduction side arm is fixedly arranged on the inner side face of the front end of the first magnetic conduction vertical plate, and the second magnetic conduction side arm is fixedly arranged on the inner side face of the front end of the second magnetic conduction vertical plate; the front ends of the first magnetic conduction side arm and the second magnetic conduction side arm are free ends.

Furthermore, the magnetic conduction framework is of an H-shaped structure.

Furthermore, the magnetic conducting framework comprises a first magnetic conducting side arm, a second magnetic conducting side arm and a first magnetic conducting middle transverse plate, the middle part of the first magnetic conducting side arm and the middle part of the second magnetic conducting side arm are fixedly connected together through the first magnetic conducting middle transverse plate, the front ends of the first magnetic conducting side arm and the second magnetic conducting side arm are free ends, and the rear ends of the first magnetic conducting side arm and the second magnetic conducting side arm are force applying ends.

Furthermore, the magnetic conduction framework comprises a first magnetic conduction side arm, a second magnetic conduction side arm and an H-shaped magnetic conduction piece, the H-shaped magnetic conduction piece comprises a second magnetic conduction middle transverse plate, a third magnetic conduction vertical plate and a fourth magnetic conduction vertical plate, the middle part of the third magnetic conduction vertical plate and the middle part of the fourth magnetic conduction vertical plate are fixedly connected together through the second magnetic conduction middle transverse plate, the first magnetic conduction side arm is fixedly arranged on the inner side face of the front end of the third magnetic conduction vertical plate, and the second magnetic conduction side arm is fixedly arranged on the inner side face of the front end of the fourth magnetic conduction vertical plate; the front ends of the first magnetic conduction side arm and the second magnetic conduction side arm are both free ends, and the rear ends of the first magnetic conduction side arm and the second magnetic conduction side arm are both force application ends.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with existing well-known technique, have following beneficial effect:

(1) the utility model discloses a novel magnetic generating device, the coil pack and the permanent magnet assembly of which are mutually independent when being manufactured, the connection between the coil pack and the permanent magnet assembly requires low precision, the structure is compact after the connection, the occupied area is small, when the magnetic generating device is applied, only the free end of the first magnetic side arm in the coil pack is required to be movably arranged between the upper and lower two first transverse sections in the permanent magnet assembly, the free end of the second magnetic side arm is required to be movably arranged between the upper and lower two second transverse sections in the permanent magnet assembly, the installation is rapid;

(2) the utility model discloses a novel magnetism generating device, its coil pack includes coil and magnetic conduction skeleton, the coil is around establishing on the magnetic conduction skeleton, first magnetic conduction side arm and second magnetic conduction side arm that relative setting about having on this magnetic conduction skeleton, the permanent magnet subassembly includes permanent magnet and structure unanimity and each other contactless first magnetic conduction board, second magnetic conduction board, whole magnetic circuit is simple, coil pack and permanent magnet subassembly are because the subassembly part structure is simple itself, the component part is few, make the equipment swift, because the subassembly part structure is simple, the component part is few, make manufacturing and processing cost low, manufacturing and processing are swift, because first magnetic conduction board and second magnetic conduction board structure are unanimous, therefore more simple and swift when the part is made;

(3) the utility model discloses a novel magnetic generating device, its magnetic conduction skeleton is the U-shaped structure, is fit for making resilience type button switch, not only can make the coil pack and the permanent magnet subassembly do the linear motion setting from top to bottom under the effect of spring, also can make the coil pack and the permanent magnet subassembly do the up-and-down swing motion setting under the effect of spring;

(4) the utility model discloses a novel magnetism generating device, when its magnetic conduction skeleton is H shape structure, be fit for making ship type switch, and when the magnetic conduction skeleton is U shape structure, be fit for making resilience formula button switch, use more nimble, be fit for different needs, in addition when the magnetic conduction skeleton is U shape structure, both can make the setting of up-and-down linear motion between coil pack and the permanent magnet subassembly under the effect of spring, also can make the setting of up-and-down swing motion between coil pack and the permanent magnet subassembly under the effect of spring;

(5) the utility model discloses a novel magnetism generates electricity device, magnetic conduction skeleton include first magnetic conduction side arm, second magnetic conduction side arm and U-shaped magnetic conduction piece when its magnetic conduction skeleton is the U-shaped structure, and magnetic conduction skeleton includes first magnetic conduction side arm, second magnetic conduction side arm and H shape magnetic conduction piece when the magnetic conduction skeleton is the H shape structure, and such structural design can reduce the width of coil pack to the at utmost for can make more small and exquisite ground switch during the application.

Drawings

Fig. 1 is a schematic structural view of a magnetic conductive loop formed in embodiment 1 of a novel magnetic generator device of the present invention;

fig. 2 is a schematic structural view of a magnetic conductive loop in embodiment 1 of the novel magnetic generator of the present invention during reversal;

fig. 3 is a schematic structural view of embodiment 1 when the novel magnetic generator device of the present invention is installed in a housing;

fig. 4 is a schematic structural view of embodiment 2 when the novel magnetic generator device of the present invention is installed in a housing;

fig. 5 is a schematic structural diagram of a novel magnetic generator device in accordance with embodiment 3 of the present invention;

fig. 6 is a schematic structural diagram of a novel magnetic generator device in accordance with embodiment 4 of the present invention;

fig. 7 is a schematic structural diagram of a novel magnetic generator device according to embodiment 5 of the present invention.

The reference numerals in the schematic drawings illustrate: 1-1, a coil; 1-2, a first magnetic conduction transverse plate; 1-3, a first magnetic side arm; 1-4, a second magnetic side arm; 1-5-1, a second magnetic conduction transverse plate; 1-5-2, a first magnetic vertical plate; 1-5-3, a second magnetic vertical plate; 1-6, a first magnetic conductive middle transverse plate; 1-7-1, a second magnetic conduction middle transverse plate; 1-7-2 and a third magnetic vertical plate; 1-7-3, a fourth magnetic vertical plate; 2-1, permanent magnets; 2-2, a first magnetic conduction plate; 2-3, a second magnetic conduction plate; 3. a first housing; 4. a first spring; 5. a button block; 6. a second housing; 7. an insulating rod; 8. a shifting block; 9. a second spring.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples.

Example 1

Referring to fig. 1, the Z-shaped magnetic conductive plate magnetic generator of this embodiment includes a coil assembly and a permanent magnet assembly,

the coil assembly comprises a coil 1-1 and a magnetic conduction framework, wherein the coil 1-1 is wound on the magnetic conduction framework, and the magnetic conduction framework is provided with a first magnetic conduction side arm 1-3 and a second magnetic conduction side arm 1-4 which are oppositely arranged at the left and the right; the magnetic conducting framework in the embodiment is of a U-shaped structure, is suitable for manufacturing a rebound button switch, is more flexible to apply and is suitable for different requirements; specifically, the magnetic conducting framework in the embodiment comprises a first magnetic conducting side arm 1-3, a second magnetic conducting side arm 1-4 and a first magnetic conducting transverse plate 1-2, wherein the rear end of the first magnetic conducting side arm 1-3 is fixedly connected with the rear end of the second magnetic conducting side arm 1-4 through the first magnetic conducting transverse plate 1-2; the front ends of the first magnetic side arm 1-3 and the second magnetic side arm 1-4 are free ends;

the permanent magnet assembly comprises a permanent magnet 2-1, a first magnetic conduction plate 2-2 and a second magnetic conduction plate 2-3 which are consistent in structure and are not in contact with each other, wherein the first magnetic conduction plate 2-2 and the second magnetic conduction plate 2-3 are both of vertically arranged Z-shaped structures and respectively comprise a first transverse section, a second transverse section and a connecting section for connecting the first transverse section and the second transverse section; the first transverse section of the first magnetic conduction plate 2-2 is positioned right above the first transverse section of the second magnetic conduction plate 2-3, the connecting section of the first magnetic conduction plate 2-2 is positioned at the front side of the connecting section of the second magnetic conduction plate 2-3, and the second transverse section of the first magnetic conduction plate 2-2 is positioned right below the second transverse section of the second magnetic conduction plate 2-3; the first transverse section of the first magnetic conduction plate 2-2 and the first transverse section of the second magnetic conduction plate 2-3 are fixedly connected with the upper pole and the lower pole of the permanent magnet 2-1 respectively; in the embodiment, the connecting section is a vertically arranged Z-shaped structure;

the first magnetic side arm 1-3 and the second magnetic side arm 1-4 in the coil assembly are respectively positioned at the left side and the right side of the permanent magnet 2-1, the free end of the first magnetic side arm 1-3 is movably arranged between the upper and lower first transverse sections in the permanent magnet assembly up and down, and the free end of the second magnetic side arm 1-4 is movably arranged between the upper and lower second transverse sections in the permanent magnet assembly up and down; when the device is in a static state, the free end of the first magnetic side arm 1-3 is in contact conduction with the first transverse section of the second magnetic plate 2-3, the free end of the second magnetic side arm 1-4 is in contact conduction with the second transverse section of the first magnetic plate 2-2 to form a magnetic conduction loop (see figure 1), when power generation is needed, the free end of the first magnetic conduction side arm 1-3 is contacted and conducted with the first transverse section of the first magnetic conduction plate 2-2, the free end of the second magnetic conduction side arm 1-4 is contacted and conducted with the second transverse section of the second magnetic conduction plate 2-3, the formed magnetic conduction loop is reversed (see figure 2), the magnetic electrification is realized, and when the free end of the first magnetic conduction side arm 1-3 is contacted and conducted with the first transverse section of the first magnetic conduction plate 2-2 and the first transverse section of the second magnetic conduction plate 2-3 alternately along with the up-and-down movement, the magnetic conduction loop is also reversed alternately.

The coil assembly and the permanent magnet assembly are assembled independently when manufactured, the connection between the coil assembly and the permanent magnet assembly is not high in precision, the structure is compact after connection, the occupied area is small, when the magnetic generating device is applied, only the free end of the first magnetic conduction side arm in the coil assembly needs to be movably arranged between the upper and lower first transverse sections in the permanent magnet assembly up and down, and the free end of the second magnetic conduction side arm needs to be movably arranged between the upper and lower second transverse sections in the permanent magnet assembly up and down, so that the installation is rapid; the coil assembly comprises a coil and a magnetic conduction framework, the coil is wound on the magnetic conduction framework, the magnetic conduction framework is provided with a first magnetic conduction side arm and a second magnetic conduction side arm which are oppositely arranged on the left and the right, the permanent magnet assembly comprises a permanent magnet and a first magnetic conduction plate and a second magnetic conduction plate which are consistent in structure and are not in contact with each other, the whole magnetic circuit is simple, the coil assembly and the permanent magnet assembly have few components due to the fact that the parts of the assembly are simple in structure, the assembly is rapid, and the manufacturing and processing cost is low due to the fact that the components of the assembly are simple in structure and the components of the assembly are few, the manufacturing and processing are rapid, and the first magnetic conduction plate and the second magnetic conduction plate are consistent in structure;

with reference to fig. 2, the coil assembly and the permanent magnet assembly are arranged to move linearly up and down under the action of the spring; a magnetic conducting framework in the coil assembly is fixedly arranged in the first shell 3, in particular, the magnetic conducting framework is fixedly arranged in an iron core installation cavity formed in the first shell 3 in the embodiment, the coil is wound on a first magnetic conducting transverse plate 1-2 of the magnetic conducting framework, and in order to further manufacture a small switch, the coil can be wound on a first magnetic conducting side arm 1-3 or a second magnetic conducting side arm 1-4; the permanent magnet assembly is arranged in the first shell 3 in a vertically movable manner, specifically, in this embodiment, the end portions of the first transverse sections of the first magnetic conducting plate 2-2 and the second magnetic conducting plate 2-3 can be vertically slidably mounted in a first sliding groove formed on the left inner side surface of the first shell 3, and the end portions of the second transverse sections of the first magnetic conducting plate 2-2 and the second magnetic conducting plate 2-3 can be vertically slidably mounted in a second sliding groove formed on the right inner side surface of the first shell 3; the first transverse section of the second magnetic conduction plate 2-3 is connected with the bottom wall of the first shell 3 through a first spring 4, and the first transverse section of the first magnetic conduction plate 2-2 is fixedly provided with a button block 5.

Example 2

With reference to fig. 3, the basic structure of a Z-shaped magnetic conductive plate magnetic generator device of this embodiment is the same as that of embodiment 1, except that: the coil assembly and the permanent magnet assembly are arranged to do up-and-down swinging motion under the action of the spring; the permanent magnet assembly is fixedly arranged in the second shell 6, specifically, the end parts of the first transverse sections of the first magnetic conduction plate 2-2 and the second magnetic conduction plate 2-3 are respectively and fixedly arranged in two first mounting grooves formed on the left inner side surface of the second shell 6; the second transverse section ends of the first magnetic conduction plate 2-2 and the second magnetic conduction plate 2-3 are respectively and fixedly arranged in two second mounting grooves formed on the right inner side surface of the second shell 6; a magnetic conducting framework in the coil assembly is arranged in the second shell 6 in a way of swinging up and down, in the embodiment, a pin shaft arranged on the outer side surface of the first magnetic conducting side arm 1-3 is rotatably connected with the left inner side surface of the second shell 6, and a pin shaft arranged on the outer side surface of the second magnetic conducting side arm 1-4 is rotatably connected with the right inner side surface of the second shell 6; the free end of the first magnetic conduction side arm 1-3 is positioned between the first transverse section of the first magnetic conduction plate 2-2 and the first transverse section of the second magnetic conduction plate 2-3, and the free end of the second magnetic conduction side arm 1-4 is positioned between the second transverse section of the first magnetic conduction plate 2-2 and the second transverse section of the second magnetic conduction plate 2-3; the free end part of the first magnetic side arm 1-3 is connected with the free end part of the second magnetic side arm 1-4 through an insulating rod 7, a stirring block 8 is arranged in the middle of the insulating rod 7, and the stirring block 8 is connected with the bottom wall of the second shell 6 through a second spring 9.

Example 3

With reference to fig. 4, the basic structure of a Z-shaped magnetic conductive plate magnetic generator device of this embodiment is the same as that of embodiment 1, except that: the magnetic conduction framework comprises a first magnetic conduction side arm 1-3, a second magnetic conduction side arm 1-4 and a U-shaped magnetic conduction piece, wherein the U-shaped magnetic conduction piece comprises a second magnetic conduction transverse plate 1-5-1, a first magnetic conduction vertical plate 1-5-2 and a second magnetic conduction vertical plate 1-5-3, the rear end of the first magnetic conduction vertical plate 1-5-2 and the rear end of the second magnetic conduction vertical plate 1-5-3 are fixedly connected together through the second magnetic conduction transverse plate 1-5-1, the inner side face of the front end of the first magnetic conduction vertical plate 1-5-2 is fixedly provided with the first magnetic conduction side arm 1-3, and the inner side face of the front end of the second magnetic conduction vertical plate 1-5-3 is fixedly provided with the second magnetic conduction side arm 1-4; the front ends of the first magnetic conduction side arm 1-3 and the second magnetic conduction side arm 1-4 are free ends, and the magnetic conduction framework comprises the first magnetic conduction side arm, the second magnetic conduction side arm and the U-shaped magnetic conduction piece when the magnetic conduction framework is of a U-shaped structure.

Example 4

With reference to fig. 5, the basic structure of a Z-shaped magnetic conductive plate magnetic generator device of this embodiment is the same as that of embodiment 1, except that: the permanent magnet assembly is fixedly arranged in the shell, a magnetic conducting framework in the coil assembly is arranged in the shell in a vertically rotating mode, the magnetic conducting framework is of an H-shaped structure and comprises first magnetic conducting side arms 1-3, second magnetic conducting side arms 1-4 and first magnetic conducting middle transverse plates 1-6, and the middle parts of the first magnetic conducting side arms 1-3 and the second magnetic conducting side arms 1-4 are fixedly connected together through the first magnetic conducting middle transverse plates 1-6; a pin shaft arranged on the outer side surface of the middle part of the first magnetic side arm 1-3 is rotationally connected with the inner side surface of the left side of the shell, and a pin shaft arranged on the outer side surface of the middle part of the second magnetic side arm 1-4 is rotationally connected with the inner side surface of the right side of the shell; the front ends of the first magnetic conduction side arm 1-3 and the second magnetic conduction side arm 1-4 are free ends, and the rear ends of the first magnetic conduction side arm 1-3 and the second magnetic conduction side arm 1-4 are force application ends.

Example 5

With reference to fig. 6, the basic structure of a Z-shaped magnetic conductive plate magnetic generator device of this embodiment is the same as that of embodiment 1, except that: the permanent magnet assembly is fixedly arranged in the shell, a magnetic conduction framework in the coil assembly is arranged in the shell in a vertically rotatable manner, the magnetic conduction framework is of an H-shaped structure and comprises a first magnetic conduction side arm 1-3, a second magnetic conduction side arm 1-4 and an H-shaped magnetic conduction piece, the H-shaped magnetic conduction piece comprises a second magnetic conduction middle transverse plate 1-7-1, a third magnetic conduction vertical plate 1-7-2 and a fourth magnetic conduction vertical plate 1-7-3, and the middle part of the third magnetic conduction vertical plate 1-7-2 and the middle part of the fourth magnetic conduction vertical plate 1-7-3 are fixedly connected together through a second magnetic conduction middle transverse plate 1-7-1; a pin shaft arranged on the outer side surface of the middle part of the third magnetic vertical plate 1-7-2 is rotationally connected with the inner side surface of the left side of the shell, and a pin shaft arranged on the outer side surface of the middle part of the fourth magnetic vertical plate 1-7-3 is rotationally connected with the inner side surface of the right side of the shell; a first magnetic side arm 1-3 is fixedly arranged on the inner side face of the front end of the third magnetic vertical plate 1-7-2, and a second magnetic side arm 1-4 is fixedly arranged on the inner side face of the front end of the fourth magnetic vertical plate 1-7-3; the front ends of the first magnetic conduction side arms 1-3 and the second magnetic conduction side arms 1-4 are free ends, the rear ends of the first magnetic conduction side arms 1-3 and the second magnetic conduction side arms 1-4 are force application ends, and the magnetic conduction framework comprises the first magnetic conduction side arms, the second magnetic conduction side arms and the H-shaped magnetic conduction piece when the magnetic conduction framework is of an H-shaped structure.

Example 6

In order to further reduce the width of the power generation device, the basic structure of the Z-shaped magnetic conduction plate magnetic power generation device of the present embodiment is the same as that of embodiment 1, except that: the coil 1-1 can also be arranged on a U-shaped magnetic conducting framework or a magnetic conducting side arm of an H-shaped framework close to the permanent magnet assembly.

The utility model discloses a Z shape magnetic conduction board magnetism generating device, simple structure, design benefit, whole magnetic circuit is simple, and the component part is few, and component part simple structure makes processing swift, low in manufacturing cost is honest and clean.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a Z shape magnetic conduction board magnetism generates electric device which characterized in that: comprises a coil component and a permanent magnet component,

the coil component comprises a coil (1-1) and a magnetic conduction framework, the coil (1-1) is wound on the magnetic conduction framework, the magnetic conduction framework is provided with a first magnetic conduction side arm (1-3) and a second magnetic conduction side arm (1-4) which are oppositely arranged at the left and the right,

the permanent magnet assembly comprises a permanent magnet (2-1), and a first magnetic conduction plate (2-2) and a second magnetic conduction plate (2-3) which are consistent in structure and are not in contact with each other, wherein the first magnetic conduction plate (2-2) and the second magnetic conduction plate (2-3) are both of Z-shaped structures which are vertically arranged and respectively comprise a first transverse section, a second transverse section and a connecting section for connecting the first transverse section and the second transverse section; the first transverse section of the first magnetic conduction plate (2-2) is positioned right above the first transverse section of the second magnetic conduction plate (2-3), the connecting section of the first magnetic conduction plate (2-2) is positioned at the front side of the connecting section of the second magnetic conduction plate (2-3), and the second transverse section of the first magnetic conduction plate (2-2) is positioned right below the second transverse section of the second magnetic conduction plate (2-3); the first transverse section of the first magnetic conduction plate (2-2) and the first transverse section of the second magnetic conduction plate (2-3) are fixedly connected with the upper pole and the lower pole of the permanent magnet (2-1) respectively;

the first magnetic conduction side arm (1-3) and the second magnetic conduction side arm (1-4) in the coil assembly are respectively positioned at the left side and the right side of the permanent magnet (2-1), the free end of the first magnetic conduction side arm (1-3) is movably arranged between an upper transverse section and a lower transverse section in the permanent magnet assembly up and down, and the free end of the second magnetic conduction side arm (1-4) is movably arranged between an upper transverse section and a lower transverse section in the permanent magnet assembly up and down, so that when the free end of the first magnetic conduction side arm (1-3) is in contact conduction with the first transverse section of the first magnetic conduction plate (2-2), the free end of the second magnetic conduction side arm (1-4) is in contact conduction with the second transverse section of the second magnetic conduction plate (2-3) to form a magnetic conduction loop.

2. The Z-shaped magnetically permeable plate magnetic generating device according to claim 1, wherein: the magnetic conduction framework is of a U-shaped structure.

3. The Z-shaped magnetically permeable plate magnetic generating device according to claim 2, wherein: the magnetic conduction skeleton among the coil pack fixed set up in first shell (3), the permanent magnet subassembly can set up in first shell (3) with reciprocating, and the first horizontal section of the second magnetic conduction board (2-3) among the permanent magnet subassembly links to each other through the diapire of first spring (4) with first shell (3), set firmly button piece (5) on the first horizontal section of the first magnetic conduction board (2-2) among the permanent magnet subassembly.

4. The Z-shaped magnetically permeable plate magnetic generating device according to claim 2, wherein: the permanent magnet assembly is fixedly arranged in the second shell (6), a magnetic conduction framework in the coil assembly can be arranged in the second shell (6) in a vertically swinging mode, the free end part of the first magnetic conduction side arm (1-3) in the coil assembly is connected with the free end part of the second magnetic conduction side arm (1-4) through an insulating rod (7), a poking block (8) is arranged in the middle of the insulating rod (7), and the poking block (8) is connected with the bottom wall of the second shell (6) through a second spring (9).

5. The Z-shaped magnetically permeable plate magnetic generating device according to claim 2, wherein: the magnetic conduction framework comprises first magnetic conduction side arms (1-3), second magnetic conduction side arms (1-4) and first magnetic conduction transverse plates (1-2), and the rear ends of the first magnetic conduction side arms (1-3) and the rear ends of the second magnetic conduction side arms (1-4) are fixedly connected together through the first magnetic conduction transverse plates (1-2); the front ends of the first magnetic conduction side arm (1-3) and the second magnetic conduction side arm (1-4) are free ends.

6. The Z-shaped magnetically permeable plate magnetic generating device according to claim 2, wherein: the magnetic conduction framework comprises a first magnetic conduction side arm (1-3), a second magnetic conduction side arm (1-4) and a U-shaped magnetic conduction piece, the U-shaped magnetic conduction piece comprises a second magnetic conduction transverse plate (1-5-1), a first magnetic conduction vertical plate (1-5-2) and a second magnetic conduction vertical plate (1-5-3), the rear ends of the first magnetic conduction vertical plates (1-5-2) and the second magnetic conduction vertical plates (1-5-3) are fixedly connected together through second magnetic conduction transverse plates (1-5-1), a first magnetic side arm (1-3) is fixedly arranged on the inner side face of the front end of the first magnetic vertical plate (1-5-2), and a second magnetic side arm (1-4) is fixedly arranged on the inner side face of the front end of the second magnetic vertical plate (1-5-3); the front ends of the first magnetic conduction side arm (1-3) and the second magnetic conduction side arm (1-4) are free ends.

7. The Z-shaped magnetically permeable plate magnetic generating device according to claim 1, wherein: the magnetic conduction framework is of an H-shaped structure.

8. The Z-shaped magnetically permeable plate magnetic generating device according to claim 7, wherein: the magnetic conduction framework comprises first magnetic conduction side arms (1-3), second magnetic conduction side arms (1-4) and first magnetic conduction middle transverse plates (1-6), the middle parts of the first magnetic conduction side arms (1-3) and the second magnetic conduction side arms (1-4) are fixedly connected together through the first magnetic conduction middle transverse plates (1-6), the front ends of the first magnetic conduction side arms (1-3) and the second magnetic conduction side arms (1-4) are free ends, and the rear ends of the first magnetic conduction side arms (1-3) and the second magnetic conduction side arms (1-4) are force application ends.

9. The Z-shaped magnetically permeable plate magnetic generating device according to claim 7, wherein: the magnetic conduction framework comprises a first magnetic conduction side arm (1-3), a second magnetic conduction side arm (1-4) and an H-shaped magnetic conduction piece, the H-shaped magnetic conduction piece comprises a second magnetic conduction middle transverse plate (1-7-1), a third magnetic conduction vertical plate (1-7-2) and a fourth magnetic conduction vertical plate (1-7-3), the middle parts of the third magnetic conduction vertical plates (1-7-2) and the fourth magnetic conduction vertical plates (1-7-3) are fixedly connected together through second magnetic conduction middle transverse plates (1-7-1), a first magnetic side arm (1-3) is fixedly arranged on the inner side face of the front end of the third magnetic vertical plate (1-7-2), and a second magnetic side arm (1-4) is fixedly arranged on the inner side face of the front end of the fourth magnetic vertical plate (1-7-3); the front ends of the first magnetic conduction side arms (1-3) and the second magnetic conduction side arms (1-4) are free ends, and the rear ends of the first magnetic conduction side arms (1-3) and the second magnetic conduction side arms (1-4) are force application ends.

Images