CN112967872A

CN112967872A - Resonance inductor

Info

Publication number: CN112967872A
Application number: CN202110221664.0A
Authority: CN
Inventors: 林淑花
Original assignee: Ruikang Guangzhou Industrial Co ltd
Current assignee: East Crystal Electronic Jinhua Co ltd
Priority date: 2021-02-27
Filing date: 2021-02-27
Publication date: 2021-06-15
Anticipated expiration: 2041-02-27
Also published as: CN112967872B

Abstract

The invention discloses a resonance inductor which structurally comprises an operation box, a bottom plate, a contact pin and a through wire pipe, wherein the bottom plate is installed at the bottom of the operation box, the bottom plate is fixedly connected with the operation box, the through wire pipe is arranged at the side end of the operation box, the through wire pipe is in clearance fit with the operation box, the contact pin is arranged on the bottom plate, and the contact pin is movably clamped with the bottom plate.

Description

Resonance inductor

Technical Field

The invention relates to the field of inductance, in particular to a resonant inductor.

Background

The resonant inductor mainly plays the roles of filtering, oscillating, delaying, trapping and the like in a circuit, and also has the roles of screening signals, filtering noise, stabilizing current, suppressing electromagnetic wave interference and the like, and the most common role of the resonant inductor in the circuit is to form an LC filter circuit together with a capacitor to suppress interference signals with higher frequency;

the side column magnetic block of the resonant inductor is a structure formed by overlapping a plurality of magnetic blocks and an air gap plate under the matching of an adhesive tape, and the adhesive tape is easily degummed in the long-time use process of the equipment, so that the stability of the equipment between the overlapped magnetic block base plates is lost, the magnetic block base plates are inclined, and the phenomenon that the side column magnetic block collapses is caused.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a resonance inductor structurally comprises an operation box, a bottom plate, a contact pin and a through wire pipe, wherein the bottom plate is installed at the bottom of the operation box and fixedly connected with the operation box;

the control box is equipped with installation magnetism, winding, cooling tube, fixing base, side column magnetism, runner pipe, box, installation magnetism installation is on side column magnetism, side column magnetism and installation magnetism activity block, the bottom of side column magnetism is equipped with the fixing base, the fixing base crosses activity axle swing joint with side column magnetic flux, the both sides of box all are equipped with the cooling tube, cooling tube and box clearance fit, the inside runner pipe that is equipped with of box, runner pipe and box activity block, the winding is installed on side column magnetism, side column magnetism and winding gomphosis.

As a further optimization of the technical scheme, the side column magnet is provided with a fastener, a buffer plate, an air gap plate and an installer, the buffer plate is arranged on two sides of the air gap plate, the air gap plate is embedded with the buffer plate, the installer is arranged on the fastener and is in clearance fit with the fastener, a through hole is formed in the buffer plate, the distribution of the buffer plate through hole is matched with the air gap hole of the air gap plate, and notches matched with the installation structure of the installer are formed in the buffer plate and the air gap plate.

As a further optimization of the technical scheme, the mounter is provided with a body, a pressing device, a moving groove, a magnetic block, a moving block, a mounting block and a mounting column, wherein the center of the body is provided with the mounting column, the mounting column is fixedly connected with the body, the outer edge of the mounting column is provided with the mounting block, the mounting block is in clearance fit with the mounting column, the pressing device is arranged on the mounting block, the pressing device is movably clamped with the mounting block, the moving groove is arranged on the mounting block, the mounting block is fixedly connected with the moving groove, the moving block is arranged in the moving groove and is in sliding connection with the moving groove, the magnetic block is arranged on the body, the body is embedded with the magnetic block, the center position of the magnetic block is provided with a circular groove with a diameter matched with that of the protruding block of the mounting block, the wall body of the circular groove is provided with a thread, the center section of the circular groove of the magnetic block, the mounting structure comprises a mounting column, a movable block and a mounting block, wherein the mounting column is provided with a hollow opening, the hollow opening of the mounting column is matched with a connecting column body of the movable block, one end of the movable block is provided with a radian connecting block, the arc connecting block of the movable block is of an L-shaped structure and is vertically connected to a connecting column body, the arc connecting block of the movable block is movably connected with an arc long shaft through a movable shaft, the arc long shaft of the movable block is provided with a circular notch, the movable groove is provided with a threaded groove, and the magnetic block is provided with a square hollow opening.

As a further optimization of the technical scheme, a circular ring protruding block is arranged at the center of the installation block, a square hollow opening is formed in one end, facing the outer portion of the device body, of the installation block, threads are arranged on the protruding block of the installation block, and a threaded strip is arranged on a connecting plate surface of the installation block and is in threaded connection with the protruding block.

As a further optimization of the technical scheme, the pressing device is provided with an assembly plate, a pressing body, a turnover plate, a fixed block, an assembly shaft and an extrusion block, the assembly shaft is provided with the pressing plate, the pressing plate is in clearance fit with the assembly shaft, the assembly shaft is provided with the assembly plate, the assembly plate is fixedly connected with the assembly shaft, the extrusion block is installed at the central section of the assembly shaft and movably clamped with the assembly shaft, the pressing body is arranged on the extrusion block, the extrusion block is in clearance fit with the pressing body, the turnover plate is arranged inside the assembly plate and movably connected with the assembly plate through a movable shaft, the fixed block is installed on the turnover plate and embedded with the turnover plate, the fixed block is a square cylinder, the periphery of the fixed block is provided with a connecting shaft body, the connecting shaft body is provided with a circular hollow opening, the turnover plate is internally provided with a threaded groove, the assembling plate is provided with a circular notch, a sliding track is arranged on the wall body of the notch, the extrusion block is embedded in the notch of the assembling plate, the notch of the assembling plate is provided with a thread strip, the pressing body is a circular plate, a thread is arranged on the arc edge of the circular plate, one end, facing the assembling plate, of the pressing body is provided with a protruding connecting cylinder, the extrusion block and the pressing plate are both provided with spring cylinders, and the assembling shaft and the pressing plate contact end are provided with a sliding protruding block.

As a further optimization of the technical solution, the fastener is provided with a housing, an offset block, a stiffener, an offset shaft, an extension plate, a buckling column, and a rotation shaft, wherein the center of the housing is provided with the buckling column, the buckling column is embedded with the housing, both sides of the buckling column are provided with the rotation shaft, the rotation shaft is in clearance fit with the buckling column, the buckling column is provided with the offset shaft, the offset shaft is connected with the buckling column in a clamping manner, the offset block is installed on the offset shaft, the offset shaft is connected with the offset block in a sliding manner, the offset block is internally provided with the extension plate, the extension plate is movably clamped with the offset block, the stiffener is arranged inside the housing, the stiffener is embedded with the housing, the extension plate is provided with a hollow opening, a connecting plate block of the offset block is provided with a sliding groove, the offset block is perpendicular to the extended extension plate, both sides of the buckling column are provided with sliding grooves, the buckle post is provided with a notch matched with the buckle structure of the reinforcing device, and two sides of the reinforcing device are provided with limiting clamping blocks.

As a further optimization of the technical scheme, both sides of the offset shaft are provided with cylindrical structures, a circular groove is formed in the cylindrical structure of the offset shaft, a thread strip is arranged on a wall body of the circular groove of the offset shaft, a hollowed-out sliding cylinder is arranged on the offset block, the cylindrical body of the offset shaft is embedded inside the sliding cylinder of the offset block, a circular ring plate block is arranged at one end of the offset shaft facing the rotating shaft, and thread cylinders are arranged on both sides of the circular ring plate block of the rotating shaft.

As a further optimization of the technical solution, the reinforcing device is provided with a rotating block, a displacement cavity, a displacement shaft, a rotating cavity, a fastening block, a pushing shaft and a rotating channel, the pushing shaft is arranged on the displacement cavity, the pushing shaft is fixedly connected with the displacement cavity, the displacement shaft is arranged inside the displacement cavity, the displacement shaft is slidably connected with the displacement cavity, the rotating cavity is arranged on the displacement shaft, the displacement shaft and the rotating cavity are integrated, the rotating block is arranged inside the rotating cavity, the rotating block is embedded with the rotating cavity, the rotating channel is arranged on the displacement cavity, the rotating channel is fixedly connected with the displacement cavity, the fastening block is arranged on the rotating block, the rotating block is movably connected with the fastening block, threads are arranged on the fastening block, the rotating channel is a T-shaped hollow, and one end of a notch is a circular sliding groove, a handle protruding out of the surface of the displacement cavity is arranged on the rotating block, the handle of the rotating block is fixedly connected with the rotating block connecting plate through a connecting cylinder, and the connecting cylinder of the rotating block is matched with the diameter of the rotating channel.

Advantageous effects

Compared with the prior art, the resonant inductor has the following advantages:

1. the stacking structure can support the column stacking structure to prevent the stacking structure from inclining in the use process by penetrating through the mounting columns for stacking and assembling, the stacking structure takes the air gap plate, the magnetic block and the buffer plate as a group, and the moving structure and the rotating structure on the mounting block are used for extruding and fixing the stacking structure on the mounting columns to realize grouping and fixing, so that the stacking structure is attached more tightly and is prevented from falling off.

2. According to the invention, the superposed structure is pressed by using the abutting force under the matching of the pressing plate and the extrusion block, so that the superposed structure is more tightly attached, the fastener can clamp the whole superposed structure, and the mutual superposition tightness of the superposed structure is further increased.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic diagram of the overall structure of a resonant inductor according to the present invention.

Fig. 2 is a schematic structural diagram of the operation box of the invention.

FIG. 3 is a schematic view of the magnetic structure of the side pillar of the present invention.

Fig. 4 is a schematic diagram of the mounter structure of the present invention.

Fig. 5 is a schematic view of the pressing device of the present invention.

FIG. 6 is a schematic view of the fastener structure of the present invention.

Fig. 7 is a schematic view of the structure of the stiffener of the present invention.

In the figure: the heat dissipation device comprises an operation box 1, a bottom plate 2, a contact pin 3, a through pipe 4, a mounting magnet 1a, a winding 1b, a heat dissipation pipe 1c, a fixed seat 1d, a side column magnet 1e, a through pipe 1f, a box body 1g, a fastener e1, a buffer plate e2, an air gap plate e3, an installer e4, a box body e41, a presser e42, a moving groove e43, a magnet e44, a moving block e45, a mounting block e46, a mounting column e47, an assembling plate 421, a pressing plate 422, a pressing body 423, a turnover plate 424, a fixed block 425, an assembling shaft 426, a pressing block 427, a shell e11, an offset block e12, a stiffener e13, an offset shaft e14, an extension plate e15, a buckling column e16, a rotating shaft e17, a rotating block 131, a displacement cavity 132, a displacement shaft 133, a rotating cavity 134, a fastening block 135, a pushing shaft 136 and a.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, a resonant inductor structurally comprises an operation box 1, a bottom plate 2, a pin 3 and a through wire tube 4, wherein the bottom plate 2 is installed at the bottom of the operation box 1, the bottom plate 2 is fixedly connected with the operation box 1, the through wire tube 4 is arranged at the side end of the operation box 1, the through wire tube 4 is in clearance fit with the operation box 1, the pin 3 is arranged on the bottom plate 2, and the pin 3 is movably clamped with the bottom plate 2;

operation box 1 is equipped with installation magnetism 1a, winding 1b, cooling tube 1c, fixing base 1d, limit post magnetism 1e, runner pipe 1f, box 1g, installation magnetism 1a is installed on limit post magnetism 1e, limit post magnetism 1e and installation magnetism 1a activity block, the bottom of limit post magnetism 1e is equipped with fixing base 1d, fixing base 1d passes through loose axle swing joint with limit post magnetism 1e, the both sides of box 1g all are equipped with cooling tube 1c, cooling tube 1c and box 1g clearance fit, the inside runner pipe 1f that is equipped with of box 1g, runner pipe 1f and box 1g activity block, winding 1b is installed on limit post magnetism 1e, limit post magnetism 1e and winding 1b gomphosis realize the filtering action of inductance.

Side column magnetism 1e is equipped with fastener e1, buffer board e2, air gap board e3, erector e4, buffer board e2 establishes in air gap board e3 both sides, air gap board e3 and buffer board e2 gomphosis, install erector e4 on the fastener e1, erector e4 and fastener e1 clearance fit, be equipped with the through-hole on the buffer board e2, the distribution of buffer board e2 through-hole is coincide with air gap board e 3's air gap hole, all be equipped with the notch identical with erector e4 mounting structure on buffer board e2 and the air gap board e3, realize the fixed of stack equipment.

The mounting device e4 is provided with a device body e41, a pressing device e42, a moving groove e43, a magnetic block e44, a moving block e45, a mounting block e46 and a mounting column e47, the center of the device body e41 is provided with a mounting column e47, the mounting column e47 is fixedly connected with the device body e41, the outer edge of the mounting column e47 is provided with a mounting block e46, the mounting block e46 is in clearance fit with the mounting column e47, the mounting block e46 is provided with the pressing device e42, the pressing device e42 is movably clamped with the mounting block e46, the moving groove e43 is arranged on the mounting block e46, the mounting block e46 is fixedly connected with the moving groove e43, the moving block e45 is arranged inside the moving groove e43, the moving block e45 is in sliding connection with the moving groove e43, the magnetic block e44 is mounted on the device body e41, the magnetic block e41 is embedded with the magnetic block e41, the central position of the circular convex groove 41 is provided with a circular convex wall body 41, and the diameter of the mounting groove 41 is matched with the, the central section of the circular groove of the magnetic block e44 is provided with a hollow hole matched with the diameter of the mounting column e47, the mounting column e47 is provided with a hollow hole, the hollow hole of the mounting column e47 is matched with a connecting column body of the moving block e45, one end of the moving block e45 is provided with a radian connecting block, the arc connecting block of the moving block e45 is of an L-shaped structure, the arc connecting block of the moving block e45 is vertically connected to the connecting column body, the arc connecting block of the moving block e45 is movably connected with an arc long shaft through a movable shaft, the arc long shaft of the moving block e45 is provided with a circular notch, the moving groove e43 is provided with a threaded groove, the magnetic block e44 is provided with a square hollow hole, and a stacked structure is extruded through the mounting.

The central point of installation piece e46 puts and is equipped with the protruding piece of ring, installation piece e46 is equipped with square fretwork mouth towards the outside one end of ware e41, be equipped with the screw thread on the protruding piece of installation piece e46, be equipped with the screw thread strip on the connecting plate face of installation piece e46 and with protruding piece threaded connection, realize the installation of equipment.

The pressing device e42 is provided with an assembly plate 421, a pressing plate 422, a pressing body 423, an overturning plate 424, a fixed block 425, an assembly shaft 426 and a pressing block 427, the assembly shaft 426 is provided with the pressing plate 422, the pressing plate 422 is in clearance fit with the assembly shaft 426, the assembly shaft 426 is provided with the assembly plate 421, the assembly plate 421 is fixedly connected with the assembly shaft 426, the central section of the assembly shaft 426 is provided with the pressing block 427, the pressing block 427 is movably clamped with the assembly shaft 426, the pressing body 423 is arranged on the pressing block 427, the pressing block 427 is in clearance fit with the pressing body 423, the overturning plate 424 is arranged inside the assembly plate 421, the overturning plate 424 is movably connected with the assembly plate 421 through a movable shaft, the fixed block 425 is arranged on the overturning plate 424, the fixed block 425 is embedded with the overturning plate 424, the fixed block 425 is a square column, the periphery of the fixed block 425 is provided with a connecting shaft body, and be equipped with circular fretwork mouth on the connecting axle body, the inside of returning face plate 424 is equipped with the screw thread recess, be equipped with circular notch on the equipment board 421, and be equipped with the slip track on the wall body of notch, extrusion block 427 gomphosis is on equipment board 421 notch, the notch of equipment board 421 is equipped with the screw thread strip, press body 423 for circular plate, and the circular arc limit of circular plate is equipped with the screw thread, press body 423 to be equipped with outstanding connection cylinder towards the one end of equipment board 421, all be equipped with the spring cylinder on extrusion block 427 and the pressure board 422, the contact end of assembly axle 426 and pressure board 422 is equipped with the protruding piece that slides, realizes that the equipment of equipment is fixed.

The using method comprises the following steps: the buffer plate e2, the air gap plate e3 and the magnetic block e44 respectively penetrate through an installation column e47 on a device body e41, an installation block e46 is assembled to extrude the assembly structure, a moving block e45 is pushed, a moving block e45 slides along a moving groove e43 and penetrates through hollowed-out holes on an installation column e47, so that the extruded position of the device is fixed, a circular ring structure in the center of the installation block e46 is attached to a groove of the magnetic block e44, the circular ring is rotated to enable the groove to be connected with a circular ring protruding block, a pressing body 423 is connected with a notch on the assembly plate 421 through threads, the pressing block 427 is made to slide along an assembly shaft 426 and is abutted against the pressing plate 422, a spring on the pressing plate 422 and a spring on the pressing block press the overlapping structure through abutting force, the overturning plate 424 is rotated to enable the overturning plate 424 to be attached to a square notch of the installation block e46, 425 penetrates through the square notch of the assembly structure, the edge of the fixing block 427 is fixed through a threaded, and realizing the superposition assembly of the equipment.

Example two

Referring to fig. 1-7, a resonant inductor structurally comprises an operation box 1, a bottom plate 2, a pin 3 and a through wire tube 4, wherein the bottom plate 2 is installed at the bottom of the operation box 1, the bottom plate 2 is fixedly connected with the operation box 1, the through wire tube 4 is arranged at the side end of the operation box 1, the through wire tube 4 is in clearance fit with the operation box 1, the pin 3 is arranged on the bottom plate 2, and the pin 3 is movably clamped with the bottom plate 2;

The fastener e is provided with a shell e, an offset block e, a reinforcement device e, an offset shaft e, an extension plate e, a buckling column e and a rotating shaft e, the central position of the shell e is provided with the buckling column e, the buckling column e is embedded with the shell e, the two sides of the buckling column e are provided with the rotating shaft e, the rotating shaft e is in clearance fit with the buckling column e, the offset shaft e is installed on the buckling column e and is connected with the buckling column e in a clamping manner, the offset block e is installed on the offset shaft e, the offset shaft e is connected with the offset block e in a sliding manner, the extension plate e is arranged inside the offset block e and is movably clamped with the offset block e, the reinforcement device e is arranged inside the shell e and is embedded with the shell e, a hollow hole is formed in the extension plate e, and a sliding groove is formed in a connecting plate of the offset block e, the offset block e12 is perpendicular to the extended plate e15, sliding grooves are formed in two sides of the buckling column e16, notches matched with the buckling structure of the reinforcement device e13 are formed in the buckling column e16, and limiting clamping blocks are arranged on two sides of the reinforcement device e13, so that overall clamping and fixing of the equipment are further achieved.

The both sides of offset axle e14 all are equipped with the cylinder structure, be equipped with circular recess on the cylinder structure of offset axle e14, be equipped with the screw thread strip on the circular recess wall body of offset axle e14, be equipped with the slip cylinder of fretwork on the skew piece e12, the cylinder gomphosis of offset axle e14 is inside the slip cylinder of skew piece e12, offset axle e14 is equipped with the ring plate towards the one end of axis of rotation e17, axis of rotation e 17's ring plate both sides all are equipped with the screw thread cylinder, realize equipment transverse structure's equipment through extending structure.

The reinforcement device e13 is provided with a rotating block 131, a displacement cavity 132, a displacement shaft 133, a rotating cavity 134, a fastening block 135, a pushing shaft 136 and a rotating channel 137, the displacement cavity 132 is provided with the pushing shaft 136, the pushing shaft 136 is fixedly connected with the displacement cavity 132, the displacement cavity 132 is internally provided with the displacement shaft 133, the displacement shaft 133 is slidably connected with the displacement cavity 132, the rotating cavity 134 is arranged on the displacement shaft 133, the displacement shaft 133 and the rotating cavity 134 are of an integrated structure, the rotating cavity 134 is internally provided with the rotating block 131, the rotating block 131 is embedded with the rotating cavity 134, the rotating channel 137 is arranged on the displacement cavity 132, the rotating channel 137 is fixedly connected with the displacement cavity 132, the fastening block 135 is arranged on the rotating block 131, the rotating block 131 is movably connected with the fastening block 135, the fastening block 135 is provided with threads, the rotating channel 137 is a T-shaped hollow, one end of a notch is a circular ring sliding groove, and a handle protruding out of the surface of the displacement cavity 132 is arranged on the rotating block 131, the handle of the rotating block 131 is fixedly connected with the connecting plate of the rotating block 131 through a connecting cylinder, and the connecting cylinder of the rotating block 131 is matched with the diameter of the rotating channel 137, so that the further stable fixation of the assembly structure is realized.

Mounting fastener e1 on the basis of the first embodiment, according to the length of the stacked structure, sliding housing e11 along snap post e16 to press and clamp the stacked structure, tilting offset shaft e14 along rotation shaft e17 to make offset shaft e14 parallel to snap post e16, extending offset block e12 according to the sliding distance of housing e11, sliding offset block e12 along offset shaft e14, pulling extension plate e15 out from the inside of offset block e12 to make extension plate e15 and snap post e16 connecting plate face fit, fixing them together by threaded cylinder, fixing them together by threaded structure on sliding plate of offset block e12 to sliding distance, pushing shaft 136 to make pushing shaft 136 snap into notch of snap post e16, sliding pull handle on rotary block 131 along rotary channel 137, extending fastening block 135 out of displacement cavity 132, sliding handle to circular sliding slot, rotating along circular sliding slot, the rotating block 131 rotates along the rotating cavity 134, the fastening block 135 is screwed into the assembly notch on the sliding groove of the snap post e16, and the displacement shaft 133 slides out along the displacement cavity 132 by a corresponding length during continuous rotation, so as to realize further fixed connection of the equipment.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A resonant inductor, characterized by: the structure of the device comprises an operation box (1), a bottom plate (2), a contact pin (3) and a through pipe (4), wherein the bottom plate (2) is fixedly connected with the operation box (1), the through pipe (4) is arranged at the side end of the operation box (1), and the contact pin (3) is movably clamped with the bottom plate (2);

operation box (1) is equipped with installation magnetism (1a), winding (1b), cooling tube (1c), fixing base (1d), side post magnetism (1e), runner pipe (1f), box (1g), installation magnetism (1a) is installed on side post magnetism (1e), fixing base (1d) and side post magnetism (1e) are through loose axle swing joint, the both sides of box (1g) all are equipped with cooling tube (1c), runner pipe (1f) and box (1g) activity block, winding (1b) is installed on side post magnetism (1 e).

2. A resonant inductor according to claim 1, wherein: side column magnetism (1e) is equipped with binding (e1), buffer board (e2), air gap board (e3), erector (e4), air gap board (e3) both sides are established in buffer board (e2), install erector (e4) on binding (e1), erector (e4) and binding (e1) clearance fit.

3. A resonant inductor according to claim 2, wherein: the mounter (e4) is provided with a device body (e41), a pressing device (e42), a moving groove (e43), a magnetic block (e44), a moving block (e45), a mounting block (e46) and a mounting column (e47), the mounting column (e47) is fixedly connected with the device body (e41), the mounting block (e46) is in clearance fit with the mounting column (e47), the pressing device (e42) is arranged on the mounting block (e46), the mounting block (e46) is fixedly connected with the moving groove (e43), the moving block (e45) is arranged inside the moving groove (e43), and the device body (e41) is embedded with the magnetic block (e 44).

4. A resonant inductor according to claim 3, wherein: the central point of installation piece (e46) puts and is equipped with the protruding piece of ring, the one end of installation piece (e46) is equipped with square fretwork mouth.

5. A resonant inductor according to claim 3, wherein: the pressing device (e42) is provided with an assembly plate (421), a pressing plate (422), a pressing body (423), a turnover plate (424), a fixing block (425), an assembly shaft (426) and an extrusion block (427), the assembly shaft (426) is provided with the pressing plate (422), the assembly plate (421) is fixedly connected with the assembly shaft (426), the extrusion block (427) is installed at the central section of the assembly shaft (426), the extrusion block (427) is in clearance fit with the pressing body (423), the turnover plate (424) is arranged inside the assembly plate (421), and the fixing block (425) is embedded with the turnover plate (424).

6. A resonant inductor according to claim 5, wherein: the fastener (e1) is provided with a shell (e11), a deviation block (e12), a reinforcing device (e13), a deviation shaft (e14), an extension plate (e15), a buckling column (e16) and a rotating shaft (e17), the center of the shell (e11) is provided with the buckling column (e16), the rotating shaft (e17) is in clearance fit with the buckling column (e16), the deviation shaft (e14) is mounted on the buckling column (e16), the deviation shaft (e14) is in sliding connection with the deviation block (e12), the extension plate (e15) is arranged inside the deviation block (e12), and the reinforcing device (e13) is arranged inside the shell (e 11).

7. A resonant inductor according to claim 6, wherein: both sides of the offset shaft (e14) are provided with cylindrical structures, and the cylindrical structures of the offset shaft (e14) are provided with circular grooves.

8. A resonant inductor according to claim 7, wherein: consolidate ware (e13) is equipped with rotatory piece (131), displacement chamber (132), displacement axle (133), rotatory chamber (134), fastening piece (135), propelling movement axle (136), rotatory way (137), propelling movement axle (136) and displacement chamber (132) fixed connection, the inside in displacement chamber (132) is equipped with displacement axle (133), displacement axle (133) and rotatory chamber (134) structure as an organic whole, rotatory chamber (134) internally mounted has rotatory piece (131), rotatory way (137) and displacement chamber (132) fixed connection, fastening piece (135) are installed on rotatory piece (131).