KR20200000041U - Electromagnetic balance stable murual inductor - Google Patents

Abstract

The present invention discloses a mutual inductor with stable electromagnetic balance, and includes a protective case, a positioning sheet located inside the protective case, and a magnet ring installed inside the positioning sheet, and for installing a pin line on an inner wall of the protective case. A first mounting base and a second mounting base are installed, and a third mounting base for mounting a pin line on the outer wall of the protective case is installed, and a fourth mounting base for mounting a pin line on the inner wall of the positioning sheet is provided. At least one shielding layer is provided between the positioning sheet and the magnet ring to shield the magnet ring electromagnetic. The present invention provides a mutual inductor that is close in structure, reasonable in design, and can effectively improve the mutual inductor electromagnetic balance and stability, which has a simple route distribution in application, simple detachable maintenance, and small volume. Features.

Description

ELECTROMAGNETIC BALANCE STABLE MURUAL INDUCTOR

The present invention relates to the field of mutual inductors, and more specifically, to a mutual inductor with stable electromagnetic balance.

Mutual inductors can change high voltages to low voltages, large currents to small currents, and to measure or protect devices in a system. Conventional mutual inductors include a protective case and a magnet ring, the magnet ring is covered in the positioning sheet of the protective case, the pin lines and the magnet ring extend outside the protective case after being connected, and finally an insulating material (e.g. epoxy Resin) to fill the protective case to form a mutual inductor. In the process of actual use, the wire branch line is installed through the positioning sheet, the magnetic field of the magnet ring itself is not balanced, so the current signal difference of the wire branch line is relatively large, and it cannot meet the standard requirements of the circuit of international electronic equipment. In addition, since the arrangement of the pin lines of the mutual inductor itself is not reasonable, it affects the wiring distribution in the mutual inductor application.

The technical problem to be solved by the present invention is to provide a mutual inductor that can overcome the above shortcomings of the prior art, the structure is close, the design is reasonable, and can effectively improve the mutual inductor electromagnetic balance and stability, It is characterized by simple route distribution in application, easy removal and maintenance, and small volume.

The technical solution used by the present invention is a mutual inductor having a stable electromagnetic balance, and includes a protective case, a positioning sheet positioned inside the protective case, and a magnet ring installed inside the positioning sheet, and having a pin on an inner wall of the protective case. A first installation base and a second installation base for installing the line are installed, and a third installation base for installing the pin line is installed on the outer wall of the protective case, and for installing the pin line on the inner wall of the positioning sheet. A fourth mounting base is provided, and at least one shielding layer for shielding magnet ring electromagnetic is provided between the positioning sheet and the magnet ring.

As an additional improvement, the protective case consists of and includes a circular casing and a rectangular casing, wherein the first mounting base and the second mounting base are both located inside the rectangular casing, and the third mounting base is attached to the circular casing. Located.

In addition, the first mounting base and the second mounting base are symmetrically distributed inside the rectangular casing, and a separator is provided between the first mounting base and the second mounting base.

In addition, the pin lines are respectively fixed to the first mounting base, the second mounting base, the third mounting base, and the fourth mounting base by way of adhesive bonding.

In addition, the shielding layer is one of permalloy sheets, nano wafers, amorphous wafers, and silicon steel sheets.

In addition, a positioning ring for positioning the shielding layer is provided at the bottom of the protective case around the positioning sheet.

Additionally, the cover body further includes a cover body detachably inserted and connected to the protective case, and a sealing ring is installed between the cover body and the protective case, and a fastening structure for fastening both between the cover body and the protective case. It is installed more.

Additionally, the fastening structure includes a plurality of clipping strips installed at the bottom edge of the cover body and a clipping block mounted at the top inner wall of the protective case and coupled with the clipping strips, wherein the clipping strips are elastic.

In addition, a fixed annular plate is formed at the bottom of the cover body to surround and press the shielding layer.

In addition, a pressure block for urging the magnet ring is further provided at the bottom of the cover body.

Comparing the present invention with the prior art, specific advantages are as follows.

One. By increasing the shielding layer between the magnet ring and the positioning sheet, it further weakens the magnetism of the magnet ring, reduces the influence on the wire branch current, improves the balance and stability of mutual inductor electromagnetics, and improves the acceptance rate of the product. In line with the requirements of the international electronic circuits.

2. By reasonably arranging the four pin line mounting bases, the wiring arrangement in the application of the mutual inductor is simplified, providing convenience for the user and improving the usability of the mutual inductor.

3. The mutual inductor replaces the filling of the protective case with insulating material by using the cover body, and the structure is detachable between the cover body and the protective case, which is convenient for late detachment and maintenance, and the mutual inductor has undergone repair and repair. It can be used again later, significantly extending its service life and reducing production costs.

1 is a structural diagram of the present invention.
FIG. 2 is a cross-sectional structural view of AA in FIG. 1.
3 is an enlarged cross-sectional view of the cover body of the present invention.
Figure 4 is an enlarged view of the structure after removing the cover body of the present invention.
5 is a structural diagram of a protective case of the present invention.

The present invention will be described in detail in connection with specific embodiments in the drawings.

1 to 5, the mutual inductor having a stable electromagnetic balance according to the present invention includes a protective case 1, a positioning sheet 2 positioned inside the protective case 1, and a covering installed inside the positioning sheet 2. And a first mounting base 5 and a second mounting base 6 for installing the pin line 4 on the inner wall of the protective case 1, and the protective case 1. The third mounting base 7 for installing the pin line 4 is installed on the outer wall, and the fourth mounting base 8 for installing the pin line 4 is installed on the inner wall of the positioning sheet 2. It is reasonably arranged through the installation base of the four pin lines 4, and the wiring arrangement for the application of the mutual inductor is simplified, providing convenience for the user, improving the usability of the mutual inductor, and positioning. Magnet ring (3) electromagnetic between the seat (2) and the magnet ring (3) At least one shielding layer 9 is provided for shielding. The shielding layer 9 has a circular thin film-like structure, and is used by bending long rod-shaped flakes into several layers, and using the shielding layer 9. By performing a 360 ° shielding against the electromagnetic of the magnet ring 3, the electromagnetic force of the magnet ring 3 is further weakened, thereby reducing the influence on the wire branch current and improving the balance and stability of the mutual inductor electromagnetic. Improve the pass rate of the product, meet the requirements of international electronic circuits.

Preferably, the protective case 1 consists of and comprises a circular casing 1a and a rectangular casing 1b, wherein the circular casing 1a and the rectangular casing 1b are of an integral structure, wherein the first mounting base ( 5), the second mounting base 6 is all located inside the rectangular casing 1b, the third mounting base 7 is located in the circular casing 1a, and the first mounting base 5 and the second mounting base are (6) distributed symmetrically inside the rectangular casing (1b), additionally optimized the structure of the protective case (1), reduced the volume of the mutual inductor, the first mounting base (5) and the second mounting base Since the separator 10 is provided between 6, the interference is prevented from occurring in the pin line 4 corresponding to two mounting bases, and it is also used for installing the pin line 4, and mutually In the actual assembly of the inductor, the pin line 4 is formed by adhesive bonding. It is fixed to the 1 installation base 5, the 2nd installation base 6, the 3rd installation base 7, and the 4th installation base 8, respectively, and prevents the pin line 4 from loosening, and also shields The layer 9 is one of permalloy sheets, nano wafers, amorphous wafers, and silicon steel sheets, the shielding effect of which is more preferred, and in other embodiments, the shielding layer 9 is a nano wafer, amorphous wafer, silicon steel. It can be any one of the sheets. In order to improve the installation efficiency of the shielding layer 9, the positioning ring 11 which positions and mounts the shielding layer 9 is provided in the lowest part of the protective case 1 around the positioning sheet 2, and the positioning ring ( 11) is more convex than the lowest part of the protective case 1, the diameter of which is larger than the diameter of the shielding layer 9, providing convenience for the quick installation of the shielding layer 9.

In addition, the cover body 12 is detachably inserted into and connected to the mutual inductor protective case 1, and a sealing ring 13 is provided between the cover body 12 and the protective case 1. A fastening structure is further provided between the cover body 12 and the protective case 1 to satisfy the sealing of the protective case 1 by matching the sealing ring 13 and the fastening structure. At the same time, it is advantageous for the detachment, wherein the fastening structure is provided with a plurality of clipping strips 14 installed at the bottom edge of the cover body 12 and a clipping installed at the innermost inner wall of the protective case 1 and coupled with the clipping strips 14. A block 15, the clipping strip 14 is an elastic body, the lower part has a convex edge, and in actual assembly, the clipping strip 14 is pressed downwards and shifted in the axial direction with its elasticity. Under the clipping strip (14) When the lock edge is shifted to the lowest end of the clipping block 15, the clipping strip 14 is restored to its original state, and the convex edge is engaged with the clipping block 15 to complete the fastening operation, and the fastening structure is fastened. The operation can be completed quickly and easily removable, and the mutual inductor of the present invention replaced the filling of the insulating material in the protective case 1 using the cover body 12, and the cover body 12 The structure between the and the protective case 1 is a removable structure, which is convenient for late detachment and maintenance, and the mutual inductor can be used again after undergoing repair and repair, greatly extending its service life and reducing production costs. In addition, a fixed annular plate 16 for enclosing and pressing the shielding layer 9 is provided at the bottom of the cover body 12, and the diameter of the fixed annular plate 16 is equal to the diameter of the shielding layer 9. Suitable for each other, after installing the cover body 12, the top end of the shielding layer 9 is fixed to complete the three-dimensional positioning of the shielding layer 9; A pressure block 17 is further provided on the bottom of the cover body 12 to press the magnet ring 3. The position of the pressure block 17 corresponds to the position of the magnet ring 3, and the cover body ( After the 12 is fastened, the pressure block 17 and the uppermost portion of the magnet ring 3 come into contact with each other to achieve the purpose of pressing the magnet ring 3.

The above contents are merely preferred embodiments of the present invention, and those skilled in the art can make some modifications and improvements under the premise of not departing from the structure of the present invention, all of which are effective and devised. Does not affect its practicality.

1: protective case,
2: positioning sheet,
3: magnet ring,
4: pin line,
5: first mounting base,
6: second mounting base,
7: third installation base,
8: fourth mounting base,
9: shielding layer,
10: separator,
11: positioning ring,
12: cover body,
13: sealing ring,
14: clipping strips,
15: clipping block,
16: stationary annular plate,
17: Pressure block.

Claims (10)

In the mutual inductor with stable electromagnetic balance, comprising a protective case (1), a positioning sheet (2) located inside the protective case (1), and a magnet ring (3) installed on the inside of the positioning sheet (2).
The first mounting base 5 and the second mounting base 6 for installing the pin line 4 on the inner wall of the protective case 1 are installed, and the pin line 4 on the outer wall of the protective case 1. A third installation base 7 for installing the second mounting base 7, a fourth installation base 8 for installing the pin line 4 on the inner wall of the positioning sheet 2, and the positioning sheet 2. And at least one shielding layer (9) for shielding the electromagnetic ring between the magnet ring (3) and the magnet ring (3).
The method of claim 1,
The protective case 1 comprises and includes a circular casing 1a and a rectangular casing 1b, and the first mounting base 5 and the second mounting base 6 are both inside the rectangular casing 1b. And the third mounting base (7) is located in the circular casing (1a).
The method of claim 2,
The first mounting base 5 and the second mounting base 6 are symmetrically distributed inside the rectangular casing 1b, and a separator between the first mounting base 5 and the second mounting base 6. A mutual inductor with stable electromagnetic balance, characterized in that (10) is provided.
The method of claim 1,
The pin lines 4 are fixed to the first mounting base 5, the second mounting base 6, the third mounting base 7, and the fourth mounting base 8 by way of adhesive bonding. A mutual inductor with stable electromagnetic balance.
The method of claim 1,
The shielding layer (9) is a mutually stable electromagnetic inductor, characterized in that one of the permalloy sheet, nano wafer, amorphous wafer, silicon steel sheet.
The method of claim 1,
And a positioning ring (11) for positioning the shielding layer (9) at a lowermost portion of the protective case (1) around the positioning sheet (2).
The method according to any one of claims 1 to 6,
A cover body 12 is detachably inserted and connected to the protective case 1, and a sealing ring 13 is installed between the cover body 12 and the protective case 1, and the cover body ( 12) and a mutual inductor with stable electromagnetic balance, characterized in that a fastening structure for fastening both is provided between the protective case (1).
The method of claim 7, wherein
The fastening structure includes a plurality of clipping strips 14 installed at the bottom edge of the cover body 12 and a clipping block 15 mounted at the top inner wall of the protective case 1 and engaged with the clipping strip 14. And said clipping strip (14) is an elastic body.
The method of claim 7, wherein
A stable inductor having a stable electromagnetic balance, characterized in that a fixed annular plate (16) surrounding and shielding the shielding layer (9) is provided at the bottom of the cover body (12).
The method of claim 7, wherein
A mutually stable inductor having a stable electromagnetic balance, characterized in that a pressure block (17) for pressing the magnet ring (3) is further provided at the bottom of the cover body (12).

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