CN114583866B - Bidirectional self-generating module structure - Google Patents

Abstract

The invention discloses a bidirectional self-generating module structure, wherein two groups of iron core coil mounting clamping arm assemblies are in a fastening clamping state in a natural state by pushing a pushing mounting spring, and synchronous closing clamping and outward unfolding removing clamping of the two groups of iron core coil mounting clamping arm assemblies are realized by meshing arc-shaped synchronous fluted discs at the bottoms of the two groups of iron core coil mounting clamping arm assemblies, so that the centering mounting of an induction iron core coil in the bidirectional self-generating module assembly is realized, the induction iron core coil is mounted at the central position of an outer frame iron sheet, the increase of induced current of a subsequent coil is ensured, the generating efficiency is improved, and meanwhile, the installation of induction iron core coils with different widths can be facilitated by the mounting mode, an L-shaped top pressure plate is downwards inclined, buckled and pressed and elastically fixed on a supporting transverse back plate and is buckled and pressed by the downwards inclination of the L-shaped top pressure plate, and limiting and fixing the top of the induction iron core coil.

Description

Bidirectional self-generating module structure

Technical Field

The invention belongs to the technical field of electricity, and particularly relates to a bidirectional self-generating module structure.

Background

Two-way from power generation module is the important part of motor engineering spare part, iron core coil is two-way from power generation module in important power generation component, iron core coil is when two-way from power generation module in-process installation, must guarantee to install the central point department of putting at the frame iron sheet, cooperation through iron core coil and internal element, just can guarantee the increase of follow-up coil induced-current and promote the generating efficiency, current iron core coil is when two-way from power generation module in-process installation, the position misalignment is not simultaneously put to the structure complicacy, the width of current iron core coil differs simultaneously, consequently, two-way from power generation module structure is urgently needed, solve above-mentioned problem.

Disclosure of Invention

To solve the problems raised in the background art described above. The invention provides a bidirectional self-generating module structure which has the characteristic of facilitating centering installation of iron core coils with different widths.

In order to achieve the purpose, the invention provides the following technical scheme: a bidirectional self-generating module structure comprises a bidirectional self-generating module assembly, wherein iron core coil mounting clamping arm assemblies are rotatably arranged on two sides of one end in the bidirectional self-generating module assembly, iron core coil mounting limiting clamping plate assemblies are rotatably arranged on the inner sides of the iron core coil mounting clamping arm assemblies, pushing mounting springs are respectively arranged between the bidirectional self-generating module assembly and the iron core coil mounting clamping arm assemblies, an induction iron core coil is clamped between the two groups of iron core coil mounting limiting clamping plate assemblies, and the bidirectional self-generating module assembly is mounted on a reserved machine position through an adaptive mounting base assembly;

the bidirectional self-generating module assembly comprises a bidirectional self-generating module shell, wherein a rotary installation base platform is fixedly arranged on two sides of one end in the bidirectional self-generating module shell, a rotary pin rod disc is fixedly arranged at the top of the rotary installation base platform, installation seat rods are arranged at the bottom of the bidirectional self-generating module shell, two installation arc seat plates are symmetrically and fixedly arranged at the bottom of the installation seat rods, and installation limiting arc grooves are formed in the middle of the installation arc seat plates;

the iron core coil mounting clamp arm assembly comprises a clamp arm shaft hole disc, an arc-shaped synchronous fluted disc is fixedly arranged at the bottom end of the clamp arm shaft hole disc through a first support arm, a support vertical disc is fixedly arranged at the top end of the clamp arm shaft hole disc through a second support arm, and a vertical disc rotating shaft lug is fixedly arranged on the inner side surface of the support vertical disc;

the iron core coil mounting limiting clamp plate assembly comprises a mounting limiting clamp plate, a supporting transverse back plate is fixedly arranged at the back of the mounting limiting clamp plate, a back plate end shaft lever is fixedly arranged at the back of the supporting transverse back plate, a plurality of through vertical grooves are formed in the top of the mounting limiting clamp plate, and a plurality of L-shaped top pressing plates are elastically and fixedly arranged on the supporting transverse back plate;

the adaptation mount pad subassembly includes the adaptation mount pad dish, the fixed spacing cardboard board of two arcs that is provided with of symmetric distribution on the face of adaptation mount pad dish top, the fixed location outer tube that is provided with in the spacing cardboard board outside of arc, the location outer tube is inside to be provided with the location inner push rod through the flexible top of direction top push spring, adaptation mount pad dish edge symmetric distribution is fixed and is provided with two installation otic placodes, the otic placode screw has been seted up on the installation otic placode, be provided with the magnet dish on the face of adaptation mount pad dish bottom.

Preferably, the clamp arm shaft hole disc on the iron core coil mounting clamp arm assembly rotates on the rotating pin rod disc on the top of the rotating mounting base platform.

Preferably, the two groups of iron core coils are meshed with arc-shaped synchronous fluted discs at the bottom end of the iron core coil mounting clamp arm assembly.

Preferably, two ends of the pushing installation spring respectively abut against the back end of the supporting vertical disc and the inner side face of the bidirectional self-generating module shell.

Preferably, the iron core coil mounting limiting clamping plate assembly rotates on the inner side surface of the supporting vertical disc through the matching of the shaft lever at the end part of the back plate and the rotating shaft lug of the vertical disc.

Preferably, the through vertical grooves and the L-shaped top pressing plates are arranged on the top of the mounting limiting clamping plate and the supporting transverse back plate at intervals respectively, the L-shaped top pressing plates correspond to the through vertical grooves one to one, and the L-shaped top pressing plates are downwards inclined and buckled and elastically fixed on the supporting transverse back plate.

Preferably, two mounting arc seat plates on a mounting seat rod at the bottom of the bidirectional self-generating module assembly are rotatably clamped in two arc-shaped limiting seat plates on the adaptive mounting seat assembly, and the end part of the positioning inner push rod is pushed and clamped in a mounting limiting arc groove on the mounting arc seat plate through a guide pushing spring.

Preferably, the adaptive mounting seat assembly is fixed with an ear plate screw hole on the mounting ear plate through a fastening bolt or fixed on a reserved machine position through a magnet disc magnetic attraction at the bottom.

Compared with the prior art, the invention has the beneficial effects that: the iron core coil mounting clamping arm assemblies are rotatably arranged on two sides of one end inside the bidirectional self-generating module assembly, synchronous closing clamping and abduction removing clamping of the two groups of iron core coil mounting clamping arm assemblies are achieved, centering mounting of the induction iron core coil in the bidirectional self-generating module assembly is achieved, the induction iron core coil is mounted at the central position of the outer frame iron sheet, accordingly, increase of induced current of a subsequent coil is guaranteed, power generation efficiency is improved, meanwhile, installation of induction iron core coils with different widths can be facilitated through the mounting mode, and the practicability is high;

the inboard of iron core coil installation clamp arm subassembly all rotates and is provided with the spacing splint subassembly of iron core coil installation, paste tight conflict when realizing the spacing splint subassembly of iron core coil installation and the contact of induction core coil side, a plurality of perpendicular grooves of lining up and a plurality of L type top clamp plate difference compartment setting are on the horizontal backplate of installation spacing splint top and support simultaneously, L type top clamp plate downward sloping is detained pressure formula elastic fixation on supporting horizontal backplate, the downward sloping through L type top clamp plate is detained pressure, carry on spacing fixed to induction core coil's top.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a perspective view of another aspect of the present invention;

FIG. 4 is a perspective view of the bi-directional self-generating module assembly of the present invention;

FIG. 5 is a top view of the bi-directional self-generating module assembly of the present invention;

FIG. 6 is a perspective view of an iron core coil mounting clamping arm assembly and an iron core coil mounting limiting clamping plate assembly in accordance with the present invention;

FIG. 7 is a perspective view of an iron core coil mounting clamp arm assembly of the present invention;

FIG. 8 is a perspective view of the core coil mounting bracket assembly of the present invention;

FIG. 9 is an exploded view of the adaptor mount assembly of the present invention;

in the figure: the bidirectional self-generating module assembly comprises a bidirectional self-generating module assembly 1, a pushing installation spring 2, an iron core coil installation clamping arm assembly 3, a limiting clamping plate assembly 4, an induction iron core coil 5, an adaptive installation base assembly 6, a bidirectional self-generating module shell 11, a rotary installation base platform 12, a rotary pin rod disc 13, an installation base rod 14, an installation arc seat plate 15, a limiting arc groove 16, a clamping arm shaft hole disc 31, a first support arm 32, an arc-shaped synchronous fluted disc 33, a second support arm 34, a support vertical disc 35, a vertical disc rotary shaft lug 36, an installation limiting clamping plate 41, a support transverse back plate 42, a back plate end shaft rod 43, a through vertical groove 44, an L-shaped top pressing plate 45, an adaptive installation base plate 61, an arc-shaped limiting clamping seat plate 62, a positioning outer sleeve 63, a positioning inner push rod 64, a guiding pushing spring 65, an installation lug plate 66, a lug plate 67 and a magnet plate 68.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides the following technical solutions: a bidirectional self-generating module structure comprises a bidirectional self-generating module assembly 1, wherein iron core coil mounting clamping arm assemblies 3 are rotatably arranged on two sides of one end in the bidirectional self-generating module assembly 1, iron core coil mounting limiting clamping plate assemblies 4 are rotatably arranged on the inner sides of the iron core coil mounting clamping arm assemblies 3, pushing mounting springs 2 are arranged between the bidirectional self-generating module assembly 1 and the iron core coil mounting clamping arm assemblies 3, induction iron core coils 5 are clamped between the two sets of iron core coil mounting limiting clamping plate assemblies 4, and the bidirectional self-generating module assembly 1 is mounted on a reserved machine position through an adaptive mounting base assembly 6;

the bidirectional self-generating module assembly 1 comprises a bidirectional self-generating module shell 11, wherein rotary mounting bottom tables 12 are fixedly arranged on two sides of one end inside the bidirectional self-generating module shell 11, rotary pin rod discs 13 are fixedly arranged on the tops of the rotary mounting bottom tables 12, mounting seat rods 14 are arranged at the bottom of the bidirectional self-generating module shell 11, two mounting arc seat plates 15 are symmetrically and fixedly arranged at the bottoms of the mounting seat rods 14, and mounting limiting arc grooves 16 are formed in the middles of the mounting arc seat plates 15;

the iron core coil mounting clamp arm assembly 3 comprises a clamp arm shaft hole disc 31, an arc-shaped synchronous fluted disc 33 is fixedly arranged at the bottom end of the clamp arm shaft hole disc 31 through a first support arm 32, a support vertical disc 35 is fixedly arranged at the top end of the clamp arm shaft hole disc 31 through a second support arm 34, and a vertical disc rotating shaft lug 36 is fixedly arranged on the inner side surface of the support vertical disc 35;

the iron core coil mounting limiting clamping plate assembly 4 comprises a mounting limiting clamping plate 41, a supporting transverse back plate 42 is fixedly arranged at the back of the mounting limiting clamping plate 41, a back plate end shaft rod 43 is fixedly arranged at the back of the supporting transverse back plate 42, a plurality of through vertical grooves 44 are formed in the top of the mounting limiting clamping plate 41, and a plurality of L-shaped top pressing plates 45 are elastically and fixedly arranged on the supporting transverse back plate 42;

adaptation mount pad subassembly 6 includes adaptation mount pad dish 61, the fixed two spacing cardboard boards 62 of arc type that are provided with of symmetric distribution on the face of adaptation mount pad dish 61 top, the fixed location outer tube 63 that is provided with in the spacing cardboard board 62 outside of arc type, the flexible top of spring 65 is pushed away through the direction top to the location outer tube 63 is inside to be provided with location inner push rod 64, adaptation mount pad dish 61 edge symmetric distribution is fixed to be provided with two installation otic placodes 66, otic placode screw 67 has been seted up on the installation otic placode 66, be provided with magnet dish 68 on the face of adaptation mount pad dish 61 bottom.

In this embodiment, it is preferable that the clamp arm shaft hole plate 31 of the iron core coil mounting clamp arm assembly 3 rotates on the rotating pin rod plate 13 at the top of the rotating mounting base 12, and the arc-shaped synchronous fluted discs 33 at the bottom ends of the two sets of iron core coil mounting clamp arm assemblies 3 are meshed.

In this embodiment, preferably, two ends of the pushing installation spring 2 respectively abut against the back end of the supporting vertical disc 35 and the inner side surface of the bidirectional self-generating module housing 11.

In this embodiment, preferably, a synchronous clamping arm structure of the induction core coil 5 is formed between the two sets of iron core coil mounting clamping arm assemblies 3, a synchronous clamping plate structure of the induction core coil 5 is formed by the two sets of iron core coil mounting limiting clamping plate assemblies 4, the iron core coil mounting limiting clamping plate assemblies 4 rotate on the inner side surface of the supporting vertical disc 35 through the matching of the shaft lever 43 at the end of the back plate and the rotating shaft lug 36 of the vertical disc, the plurality of through vertical slots 44 and the plurality of L-shaped top pressing plates 45 are respectively arranged on the top of the mounting limiting clamping plate 41 and the supporting horizontal back plate 42 at intervals, the L-shaped top pressing plates 45 correspond to the through vertical slots 44 one to one, and the L-shaped top pressing plates 45 are downward inclined, buckled and elastically fixed on the supporting horizontal back plate 42;

in this embodiment, preferably, the two mounting arc seat plates 15 on the mounting seat rod 14 at the bottom of the bidirectional self-generating module assembly 1 are rotatably clamped in the two arc-shaped limiting seat plates 62 on the adapter mounting seat assembly 6, and the end of the positioning inner push rod 64 is pushed and clamped in the mounting limiting arc groove 16 on the mounting arc seat plate 15 through the guiding pushing spring 65.

In this embodiment, the adapter assembly 6 is preferably fixed to the reserved machine position by fastening bolts and the ear plate screw holes 67 on the mounting ear plate 66 or by magnetic attraction via the bottom magnet disc 68.

The working principle and the using process of the invention are as follows: when the bidirectional self-generating module assembly is used, the iron core coil mounting clamping arm assemblies 3 are rotatably arranged on two sides of one end inside the bidirectional self-generating module assembly 1, when the two groups of iron core coil mounting clamping arm assemblies 3 are mounted in the bidirectional self-generating module assembly 1, the clamping arm shaft hole disc 31 on the iron core coil mounting clamping arm assemblies 3 rotates on the rotating pin rod disc 13 at the top of the rotating mounting bottom table 12, the arc-shaped synchronous fluted discs 33 at the bottoms of the two groups of iron core coil mounting clamping arm assemblies 3 are meshed, meanwhile, two ends of the pushing mounting springs 2 respectively abut against the back ends of the supporting vertical discs 35 and the inner side surface of the bidirectional self-generating module shell 11, the two groups of iron core coil mounting clamping arm assemblies 3 are in a fastening clamping state under a natural state through the pushing of the pushing mounting springs 2, and meanwhile, synchronous clamping closing and outward unfolding releasing clamping of the two groups of iron core coil mounting clamping arm assemblies 3 are realized through meshing of the arc-shaped synchronous fluted discs 33 at the bottom ends of the two groups of the iron core coil mounting clamping arm assemblies 3, through the method, the centering installation of the induction core coil 5 in the bidirectional self-generating module assembly 1 is realized, the induction core coil 5 is ensured to be installed at the central position of the outer frame iron sheet, so that the increase of the induced current of the subsequent coil is ensured and the power generation efficiency is improved, meanwhile, through the installation method, the installation of the induction core coil 5 with different widths can be facilitated, the practicability is strong, the inner side of the iron core coil installation clamping arm assembly 3 is rotatably provided with the iron core coil installation limiting clamping plate assembly 4, when the induction core coil 5 is installed, the two sides are subjected to auxiliary clamping installation through the iron core coil installation limiting clamping plate assembly 4, the iron core coil installation limiting clamping plate assembly 4 rotates on the inner side surface of the supporting vertical disc 35 through the matching of the back plate end shaft lever 43 and the vertical disc rotating shaft lug 36, and through the mode, the tight contact between the iron core coil installation limiting clamping plate assembly 4 and the side surface of the induction core coil 5 is realized, meanwhile, a plurality of through vertical grooves 44 and a plurality of L-shaped top pressing plates 45 are respectively arranged on the top of the mounting limit clamping plate 41 and the supporting transverse back plate 42 at intervals, the L-shaped top pressing plates 45 are elastically fixed on the supporting transverse back plate 42 in a downward inclined manner, and the top of the induction core coil 5 is limited and fixed through the downward inclined pressing of the L-shaped top pressing plates 45, meanwhile, when the bidirectional self-generating module assembly 1 is mounted on a reserved machine position through the adaptive mounting seat assembly 6, two mounting arc seat plates 15 on a mounting seat rod 14 at the bottom of the bidirectional self-generating module assembly 1 are rotatably clamped in two arc limit clamping seat plates 62 on the adaptive mounting seat assembly 6, the end part of a positioning inner push rod 64 is in pushing and clamping in a mounting limit arc groove 16 on the mounting arc seat plate 15 through a guiding pushing spring 65, and by the mode, the bidirectional self-generating module assembly 1 can be well rotatably clamped on the adaptive mounting seat assembly 6, the two-way dismantlement when module assembly 1 from electricity generation of convenient installation, the while adaptation mount pad subassembly 6 is fixed on the machine position of reserving through fastening bolt and otic placode screw 67 fixed on the installation otic placode 66 or through the magnet disc 68 magnetism formula of bottom.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a two-way from electricity generation modular structure, includes two-way from electricity generation modular component (1), its characterized in that: iron core coil mounting clamping arm assemblies (3) are rotatably arranged on two sides of one end inside the bidirectional self-generating module assembly (1), iron core coil mounting limiting clamping plate assemblies (4) are rotatably arranged on the inner sides of the iron core coil mounting clamping arm assemblies (3), pushing mounting springs (2) are arranged between the bidirectional self-generating module assembly (1) and the iron core coil mounting clamping arm assemblies (3), induction iron core coils (5) are clamped between the two groups of iron core coil mounting limiting clamping plate assemblies (4), and the bidirectional self-generating module assembly (1) is mounted on a reserved machine position through an adaptive mounting base assembly (6);

the bidirectional self-generating module assembly (1) comprises a bidirectional self-generating module shell (11), wherein rotary mounting bottom tables (12) are fixedly arranged on two sides of one end inside the bidirectional self-generating module shell (11), rotary pin rod discs (13) are fixedly arranged at the tops of the rotary mounting bottom tables (12), mounting seat rods (14) are arranged at the bottom of the bidirectional self-generating module shell (11), two mounting arc seat plates (15) are symmetrically distributed and fixedly arranged at the bottoms of the mounting seat rods (14), and mounting limiting arc grooves (16) are formed in the middles of the mounting arc seat plates (15);

the iron core coil mounting clamp arm assembly (3) comprises a clamp arm shaft hole disc (31), an arc-shaped synchronous fluted disc (33) is fixedly arranged at the bottom end of the clamp arm shaft hole disc (31) through a first support arm (32), a support vertical disc (35) is fixedly arranged at the top end of the clamp arm shaft hole disc (31) through a second support arm (34), and a vertical disc rotating shaft lug (36) is fixedly arranged on the inner side surface of the support vertical disc (35);

the iron core coil mounting limiting clamping plate assembly (4) comprises a mounting limiting clamping plate (41), a supporting transverse back plate (42) is fixedly arranged at the back of the mounting limiting clamping plate (41), a back plate end shaft lever (43) is fixedly arranged at the back of the supporting transverse back plate (42), a plurality of through vertical grooves (44) are formed in the top of the mounting limiting clamping plate (41), and a plurality of L-shaped top pressing plates (45) are elastically and fixedly arranged on the supporting transverse back plate (42);

a clamp arm shaft hole disc (31) on the iron core coil mounting clamp arm assembly (3) rotates on a rotating pin rod disc (13) at the top of the rotating mounting bottom table (12);

the arc-shaped synchronous fluted discs (33) at the bottom ends of the two groups of iron core coil mounting clamp arm assemblies (3) are meshed;

two ends of the pushing installation spring (2) respectively abut against the back end of the supporting vertical disc (35) and the inner side surface of the bidirectional self-generating module shell (11);

through the top that pushes away installation spring (2), two sets of iron core coil installation clamping arm subassembly (3) are in the fastening clamping state under natural state, synchronous fluted disc (33) meshing through the synchronous fluted disc of arc type of two sets of iron core coil installation clamping arm subassembly (3) bottoms simultaneously, the clamping is removed with abduction to the synchronous clamping of drawing close that realizes two sets of iron core coil installation clamping arm subassembly (3), through this kind of mode, realize the centering installation of response iron core coil (5) when two-way from power generation module subassembly (1) installation, the central point department of putting at the frame iron sheet has been guaranteed to response iron core coil (5) to guarantee the increase of follow-up coil induced-current and promote the generating efficiency, simultaneously through this kind of mounting means, can make things convenient for the installation of width different response iron core coil (5).

2. The structure of the bidirectional self-generating module according to claim 1, characterized in that: the iron core coil mounting limiting clamping plate assembly (4) rotates on the inner side surface of the supporting vertical disc (35) through the matching of a shaft lever (43) at the end part of the back plate and a rotating shaft lug (36) of the vertical disc.

3. The structure of the bidirectional self-generating module according to claim 1, characterized in that: a plurality of it sets up on installation spacing splint (41) top and horizontal backplate (42) of support to link up perpendicular groove (44) and a plurality of L type top clamp plate (45) interval formula respectively, L type top clamp plate (45) with link up perpendicular groove (44) one-to-one, L type top clamp plate (45) downward sloping is detained pressure formula elasticity and is fixed on supporting horizontal backplate (42).

4. The structure of the bidirectional self-generating module according to claim 1, characterized in that: adaptation mount pad subassembly (6) are including adaptation mount pad dish (61), symmetric distribution is fixed on adaptation mount pad dish (61) top face and is provided with two spacing cardboard boards of arc type (62), the fixed location outer tube (63) that is provided with in spacing cardboard board of arc type (62) outside, location outer tube (63) are inside to be provided with location inner push rod (64) through the flexible top of direction top push spring (65), adaptation mount pad dish (61) edge symmetric distribution is fixed and is provided with two installation otic placodes (66), otic placode screw (67) have been seted up on installation otic placode (66), be provided with magnet dish (68) on adaptation mount pad dish (61) bottom face.

5. The structure of the bidirectional self-generating module according to claim 1, characterized in that: the adaptive mounting seat assembly (6) is fixed with an ear plate screw hole (67) on the mounting ear plate (66) through a fastening bolt or fixed on a reserved machine position through a magnet disc (68) at the bottom in a magnetic mode.

6. The structure of the bidirectional self-generating module according to claim 4, wherein: two installation arc bedplate (15) on the two-way self-generating module subassembly (1) bottom mount pad pole (14) revolve the formula card and establish in two spacing bedplate (62) of arc type on adaptation mount pad subassembly (6), the tip of push rod (64) pushes up through direction top push spring (65) top push card and establishes in installation spacing arc groove (16) on installation arc bedplate (15) in the location.

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