DE202020107456U1 - Coupled magnetic element with high dielectric strength and high power density - Google Patents

Abstract

Coupled magnetic element with high dielectric strength and high power density (Z), comprising:
- A first iron core (1) which has a receiving space penetrating the base body of the first iron core,
- A first coil (2) which is removably arranged in the receiving space and has a second receiving space (20),
- A second coil (3) which is removably arranged in the second receiving space (20) and has a third receiving space (30), and
- At least one second iron core (4) which is removably arranged in the third receiving space (30), with several first games (G1) being present between the first iron core (1) and the at least one second iron core (4), the The first coil (2) is located between the first iron core (1) and the second coil (3) and the second coil (3) is located between the first coil (2) and the at least one second iron core (4), the first iron core (1 ), the first coil (2) and the at least one second iron core (4) are combined with one another in order to generate a first inductance, while the first iron core (1), the second coil (3) and the at least one second iron core (4 ) are combined with one another in order to generate a second inductance, the first and the second inductance reaching the desired height over the air gap formed by each of the first clearances (G1).

Description

The present utility model relates to a magnetic element, in particular a coupled magnetic element with high dielectric strength and high power density.

The design of power supply products is indispensable for electronic devices or devices, in which a reduction in volume is always sought in order to achieve a high power density. In a power supply product, a larger volume inductor often takes up a larger space. Therefore, the respective design mostly focuses on reducing the volume of an inductance element. So far, a lot of time and attention has been devoted to this goal in order to find an optimal solution.

The conventional inductance elements are essentially present in the form of discrete individual inductances. Only a fraction of it is designed as a structure consisting of several inductors. Some of the current two-inductance elements consist only of two simple coupled inductances from several coils in one and the same magnetic path. For the existing inductance elements, a high dielectric strength can only be achieved by increasing the volume of the respective inductance element or by a complicated manufacturing process. In other words, the previously commercially available inductance elements with high dielectric strength either have the problem of too large a volume or the problem of a complex manufacturing process.

Based on the disadvantages of the prior art, the present utility model has the task of providing a coupled magnetic element with high dielectric strength and high power density. To solve this problem, the present utility model proposes in one embodiment a coupled magnetic element with high dielectric strength and high power density, which comprises a first iron core, a first coil, a second coil and at least one second iron core. Here, the first iron core has a receiving space that penetrates the base body of the first iron core. The first coil is removably arranged in the receiving space and has a second receiving space. The second coil is removably arranged in the second receiving space and has a third receiving space. The at least one second iron core is removably arranged in the third receiving space.

There are several games between the first iron core and the at least one second iron core, the first coil being between the first iron core and the second coil and the second coil between the first coil and the at least one second iron core. The first iron core, the first coil and the at least one second iron core are combined with one another in order to generate a first inductance, while the first iron core, the second coil and the at least one second iron core are combined with one another in order to generate a second inductance, wherein the first and second inductors reach the desired height across the air gap formed by each of the clearances.

An advantageous effect of the present utility model is that in the coupled magnetic element with high dielectric strength and high power density according to the present utility model, a coupled magnetic effect with high dielectric strength and high power density can be achieved through the configurations set out above.

For a better understanding of the features and the technical configurations of the present utility model, this is described in more detail below with reference to the attached figures. The attached drawings do not represent a restriction of the present utility model, but merely serve to explain the present utility model.

• 1 eine schematische räumliche Ansicht eines gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß einem ersten Ausführungsbeispiel des vorliegenden Gebrauchsmusters,
• 2 eine schematische teilweise Explosionsansicht des gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß dem ersten Ausführungsbeispiel des vorliegenden Gebrauchsmusters,
• 3 eine schematische Explosionsansicht des gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß dem ersten Ausführungsbeispiel des vorliegenden Gebrauchsmusters,
• 4 eine schematische Unteransicht des gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß dem ersten Ausführungsbeispiel des vorliegenden Gebrauchsmusters,
• 5 eine schematische Vorderansicht des gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß dem ersten Ausführungsbeispiel des vorliegenden Gebrauchsmusters,
• 6 eine schematische Explosionsansicht eines gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß einem zweiten Ausführungsbeispiel des vorliegenden Gebrauchsmusters,
• 7 eine schematische Vorderansicht eines gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß einem dritten Ausführungsbeispiel des vorliegenden Gebrauchsmusters,
• 8 eine schematische teilweise Explosionsansicht eines gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß einem vierten Ausführungsbeispiel des vorliegenden Gebrauchsmusters und
• 9 eine schematische räumliche Ansicht des gekoppelten Magnetelements mit hoher Spannungsfestigkeit und hoher Leistungsdichte gemäß dem vierten Ausführungsbeispiel des vorliegenden Gebrauchsmusters.

Show it

• 1 a schematic three-dimensional view of a coupled magnetic element with high dielectric strength and high power density according to a first embodiment of the present utility model,
• 2 a schematic partial exploded view of the coupled magnetic element with high dielectric strength and high power density according to the first embodiment of the present utility model,
• 3rd a schematic exploded view of the coupled magnetic element with high dielectric strength and high power density according to the first embodiment of the present utility model,
• 4th a schematic bottom view of the coupled magnetic element with high dielectric strength and high power density according to the first embodiment of the present utility model,
• 5 a schematic front view of the coupled magnetic element with high dielectric strength and high power density according to the first embodiment of the present utility model,
• 6th a schematic exploded view of a coupled magnetic element with high dielectric strength and high power density according to a second embodiment of the present utility model,
• 7th a schematic front view of a coupled magnetic element with high dielectric strength and high power density according to a third embodiment of the present utility model,
• 8th a schematic partial exploded view of a coupled magnetic element with high dielectric strength and high power density according to a fourth embodiment of the present utility model and
• 9 a schematic three-dimensional view of the coupled magnetic element with high dielectric strength and high power density according to the fourth embodiment of the present utility model.

In the following, the embodiments of a coupled magnetic element with high dielectric strength and high power density according to the present utility model are described on the basis of specific concrete exemplary embodiments. It will be clear to those skilled in this field that advantages and effects of the present utility model can be derived from the disclosures in the present description. The present utility model can be implemented or used in other specific exemplary embodiments, whereby various modifications or changes can be made to the details disclosed in the present description, depending on requirements and application, without departing from the basic ideas of the present utility model.

[First embodiment]

1 to 5 show a coupled magnetic element with high dielectric strength and high power density according to a first embodiment of the present utility model, each in a schematic spatial view, a schematic partial exploded view, a schematic exploded view, a schematic bottom view and a schematic front view. As shown, the first embodiment of the present utility model provides a coupled magnetic element with high dielectric strength and high power density Z ready that a first iron core 1 , a first coil 2 , a second coil 3rd and at least a second iron core 4th includes.

As initially out 1 to 4th can be seen, shows the first iron core 1 According to the present utility model, a receiving space penetrating the base body of the first iron core 10 and can consist of a ferritic or soft magnetic material. In the present exemplary embodiment, the first has an iron core 1 for example a square outer shape. The receiving space 10 can be T-shaped, with two opposite sides of the first iron core 1 about the recording room 10 can communicate with each other. In addition, the first iron core has 1 a first inner wall 11 , a second inner wall 12th , a third inner wall 13th and a fourth inner wall 14th on which the recording room 10 are assigned, the first inner wall 11 the second inner wall 12th and the third inner wall 13th the fourth inner wall 14th opposite.

In 1 to 4th it can be seen that the first coil 2 removable in the recording room 10 of the first iron core 1 is arranged and a second receiving space 20th owns. In particular, the first coil comprises 2 a body portion 21 , a first end portion 22nd and a second end portion 23 , wherein the main body portion 21 Is U-shaped and located in the receiving space 10 is located. Furthermore, the main body section is 21 at one end with the first end portion 22nd connected perpendicular to it and at the other end to the second end section 23 connected perpendicular to it. In other words, the first coil 2 Be formed Ω-shaped and with the main body section 21 the second recording room 20th form. At in the recording room 10 arranged first coil 2 can be the first end section 22nd and the second end portion 23 completely in the recording room 10 are located (cf. 1 and 2 ) or partly from the first iron core 1 protrude (cf. 5 ). Furthermore, the first coil 2 be a flat coil, but without limitation, or made of a stamped copper sheet or other electrical conductor materials.

How out 2 to 4th is the second coil 3rd removable in the second receiving space 20th the first coil 2 arranged, ie the second coil 3rd can be partially from the first spool 2 be surrounded. The second coil 3rd can be C-shaped. The second coil 3rd can have a third recording room 30th have. In addition, the second coil 3rd be a flat coil, but without limitation, or made of a stamped copper sheet or other electrical conductor materials.

How 2 to 4th show is the second iron core 4th removable in the third Recording room 30th the second coil 3rd arranged, ie the second iron core 4th can partially from the second coil 3rd be surrounded. The second iron core 4th can consist of a ferritic or soft magnetic material. In the present embodiment, the second iron core 4th for example an inverted T-shaped outer shape, but without limitation. However, the outer shape of the second iron core can 4th also to the shape of the second coil 3rd be adjusted.

How 1 to 4th can be removed, the first iron core 1 with the first coil 2 and the second iron core 4th can be combined to create a first inductor. In addition, the first iron core 1 with the second coil 3rd and the second iron core 4th can be combined to create a second inductor. In the present exemplary embodiment, a single second iron core is an example 4th available, but without limitation. You can then use the second coil 3rd and the second iron core 4th in the second recording room 20th the first coil 2 (and at the same time also in the recording room 10 of the first iron core 1 ) be included. In other words, there is the first coil 2 between the first iron core 1 and the second coil 3rd and the second coil 3rd between the first coil 2 and the second iron core 4th . Because the recording room 10 of the first iron core 1 larger than the second iron core 4th is can between the first inner wall 11 of the first iron core 1 and a first surface 41 of the second iron core 4th a first game G1 and between the second inner wall 12th of the first iron core 1 and a second surface 42 of the second iron core 4th a first game G1 arise. That is, between the first iron core 1 and the second iron core 4th are several first games G1 available. With the coupled magnetic element with high dielectric strength and high power density Z can be caused by the presence of a gas (usually but not limited to air, for example) in the first several games G1 an air gap between the first iron core 1 and the second iron core 4th be generated. On the other hand, the third inner wall 13th and the fourth inner wall 14th of the first iron core 1 with the main body section 21 the first coil 2 be in direct contact.

It should be mentioned that the first coil 1 and the second coil 3rd in other preferred embodiments of the present utility model isolated from one another in connection or in contact with one another. With the coupled magnetic element with high dielectric strength and high power density Z According to the present utility model, it is also conceivable that the first iron core 1 , the first coil 1 , the second coil 3rd and the second iron core 4th isolated from each other in connection or in contact with each other in order to realize a magnetic element structure with ultra-high dielectric strength.

Thus, in the coupled magnetic element, high dielectric strength and high power density are combined Z according to the present utility model by the first iron core 1 , the first coil 2 and the second iron core 4th first inductance formed and that formed by the first iron core 1 , the second coil 3rd and the second iron core 4th formed second inductance into an integral unit, with over the by the several first games G1 formed air gap ensures that the first and the second inductance can be the same or not the same. In other words, the coupled magnetic element has a high dielectric strength and high power density Z according to the present utility model, a distance between the first iron core 1 and the second iron core 4th before, which serves as an air gap, different desired inductance values can be set over different sizes of the distance, so that the first and the second inductance over the by the several first games G1 formed air gap can reach the desired height.

It is noteworthy that each of the first games G1 can be adjusted in its size by the manufacturer or the user as required. That is, by resizing the first game G1 can the air gap between the first iron core 1 and the second iron core 4th and thus controlling the magnitude of the first and second inductors.

With the configurations explained above, the coupled magnetic element enables high dielectric strength and high power density Z According to the present utility model, on the one hand, a combination of two inductance elements in order to effectively reduce the number of components or elements on an assembled printed circuit board (PCBA). On the other hand, the total volume and the installation space are largely reduced, which contributes both to increasing the power density of the respective energy supply product and to miniaturization of the product in order to improve the disadvantages of the prior art.

[Second embodiment]

It will be on 6th , which shows a schematic exploded view of a coupled magnetic element with high dielectric strength and high power density according to a second embodiment of the present utility model, and at the same time also to the 1 to 5 Referenced. As shown, the coupled magnetic element is similar with high withstand voltage and high power density Z of the present embodiment basically the coupled magnetic element with high dielectric strength and high power density Z of the above first exemplary embodiment, so that it will no longer be discussed in detail at this point. The present exemplary embodiment differs from the exemplary embodiment described above in that, in the present exemplary embodiment, the coupled magnetic element has a high dielectric strength and high power density Z additionally several sealing units 5 may include, each of the sealing units 5 removable in the associated first game G1 is arranged. The first and the second inductance control through the provision of the individual sealing units 5 the air gap between the first iron core 1 and the second iron core 4th to reach the desired height.

The coupled magnetic element can thus have a high dielectric strength and high power density Z according to the present utility model, as in 4th and 6th recognizable, for example in every first game G1 a sealing unit 5 provide that acts as an air gap in the first and second inductors. This can be the case with the sealing unit 5 be a sheet metal body made of a non-ferromagnetic material, wherein the non-ferromagnetic material can include Mylar, Kraft paper, plastic plate, glass plate or consists of various non-ferromagnetic materials. Thus, the first and second inductors can be made possible by the provision of the plurality of sealing units 5 the air gap between the first iron core 1 and the second iron core 4th steer to reach the desired height.

[Third embodiment]

It will be on 7th which shows a schematic front view of a coupled magnetic element with high dielectric strength and high power density according to a third embodiment of the present utility model, and at the same time also to the 1 to 6th Referenced. As shown, the coupled magnetic element is similar with high dielectric strength and high power density Z of the present embodiment basically the coupled magnetic element with high dielectric strength and high power density Z of the above first exemplary embodiment, so that it will no longer be discussed in detail at this point. The present exemplary embodiment differs from the exemplary embodiments described above in that, in the present exemplary embodiment, the receiving space 10 can be square. Added to that is the first coil 2 a body portion 21 , a first end portion 22nd and a second end portion 23 may include, wherein the main body portion 21 Is U-shaped, located in the receiving space 10 is located and at both ends with the first end section 22nd or the second end section 23 is connected while the first end portion 22nd and the second end portion 23 from the first iron core 1 stick out.

So can the first coil 2 , as in 7th shown, for example, be U-shaped and protrudes when the first coil 2 with the first iron core 1 is combined with the first end portion 22nd and the second end portion 23 the first coil 2 from the first iron core 1 out to serve as conductive pins. If now the coupled magnetic element with high dielectric strength and high power density Z According to the present utility model is to be connected to a base plate (not shown), the coupled magnetic element can have high dielectric strength and high power density Z with the first end portion 22nd and the second end portion 23 can be inserted into the base plate to be stably arranged on the base plate.

[Fourth embodiment]

It will be on 8th and 9 , which show a coupled magnetic element with high dielectric strength and high power density according to a fourth embodiment of the present utility model each in a schematic partial exploded view or a schematic spatial view, and at the same time also on the 1 to 7th Referenced. As shown, the coupled magnetic element is similar with high dielectric strength and high power density Z of the present embodiment basically the coupled magnetic element with high dielectric strength and high power density Z in accordance with the above exemplary embodiments, so that they will no longer be discussed in detail at this point. The present exemplary embodiment differs from the exemplary embodiments described above in that, in the present exemplary embodiment, several second iron cores 4th may be present. In addition, there is the fact that between every two adjacent second iron cores 4th a second game G2 is provided, the second inductor being over by the second games G2 formed air gap reaches the desired height.

For example, in the third receiving room 30th the second coil 3rd according to the present utility model several second iron cores 4th be provided like this 8th can be seen. In the present embodiment the second iron core 4th provided in an exemplary number of two, but this should not be considered a limitation. Furthermore, in the second game G2 a sealing unit 5 be provided as an air gap (as in the second embodiment). Thus, the second inductance can play over the second G2 or via the through the sealing unit 5 in the second game G2 generated air gap reach the desired height.

In addition, the coupled magnetic element can have high dielectric strength and high power density Z according to the present utility model on the top of the first iron core 1 a cover unit 6th according to 9 provide which can be printed as a plate and on which words or digits can be applied by the manufacturer or the user.

It goes without saying that the examples mentioned in the exemplary embodiments explained above do not serve to restrict the present utility model, but rather represent only one of the possible exemplary embodiments.

[Advantageous Effects of the Embodiments]

An advantageous effect of the present utility model is that in the coupled magnetic element with high dielectric strength and high power density Z According to the present utility model, a coupled magnetic effect with high dielectric strength and high power density can be achieved through the configurations set out above.

In particular, the coupled magnetic element enables high dielectric strength and high power density Z According to the present utility model with the above configurations, a coupled magnetic element with both high dielectric strength and high power density. With the coupled magnetic element with high dielectric strength and high power density Z According to the present utility model, a very high coupling factor between two inductors is realized through an expedient design of the magnetic path, with the two inductors also being able to influence one another. With the coupled magnetic element with high dielectric strength and high power density Z according to the present utility model is furthermore through the first coil 2 and the second coil 3rd , which are each provided with an insulating film or an insulating varnish, in cooperation with the multiple air gaps between the first iron core 1 and the second iron core 4th reaches a high dielectric strength. In addition to this, the second inductance can be inside the first iron core 1 be included, whereby the total volume and the installation space of the element are reduced and the power density is increased. This means that the construction of the coupled magnetic element with high dielectric strength and high power density according to the present utility model not only overcomes the technical bottleneck of the high-voltage-resistant magnetic elements with high power density currently available on the market, but also the entire manufacturing effort can be reduced by simplifying the structure or effectively reduce the composition of the coupled magnetic element, which results in a very high level of technical and cost competitiveness.

In the present utility model, it is also used by the first iron core 1 , the first coil 2 and the at least one second iron core 4th first inductance formed and that formed by the first iron core 1 , the second coil 3rd and the second iron core 4th Second inductance formed possible by providing the first game G1 and about by that in the first game G1 existing air or intended sealing unit 5 generated air gap the air gap between the first iron core 1 and the second iron core 4th to steer and thus reach the desired height. In this way, two uncoupled inductors are created. The coupled magnetic element thus enables high dielectric strength and high power density Z According to the present utility model, on the one hand, a combination of two inductance elements in order to effectively reduce the number of elements or components on an assembled printed circuit board (PCBA). On the other hand, the total volume and the installation space are largely reduced, which contributes both to increasing the power density of the respective energy supply product and to miniaturizing the product in order to improve the disadvantages of the known prior art.

The above disclosures do not restrict the claims of the present utility model, but merely serve to illustrate possible preferred exemplary embodiments of the present utility model. Any equivalent modification that can be derived from the description or the drawings of the present utility model therefore falls within the claims of the present utility model.

List of reference symbols

Z

Coupled magnetic element with high tensile strength and high power density

1

First iron core

10

First recording room

11

First interior wall

12th

Second inner wall

13th

Third inner wall

14th

Fourth inner wall

2

First coil

20th

Second recording room

21

Body section

22nd

First end section

23

Second end section

3

Second coil

30th

Third recording room

4th

Second iron core

41

First surface

42

Second surface

5

Sealing unit

6th

Cover unit

G1

First game

G2

Second game

Claims (8)

Coupled magnetic element with high dielectric strength and high power density (Z), comprising: - A first iron core (1) which has a receiving space penetrating the base body of the first iron core, - A first coil (2) which is removably arranged in the receiving space and has a second receiving space (20), - A second coil (3) which is removably arranged in the second receiving space (20) and has a third receiving space (30), and - At least one second iron core (4) which is removably arranged in the third receiving space (30), with several first games (G1) being present between the first iron core (1) and the at least one second iron core (4), the The first coil (2) is located between the first iron core (1) and the second coil (3) and the second coil (3) is located between the first coil (2) and the at least one second iron core (4), the first iron core (1 ), the first coil (2) and the at least one second iron core (4) are combined with one another in order to generate a first inductance, while the first iron core (1), the second coil (3) and the at least one second iron core (4 ) are combined with one another in order to generate a second inductance, the first and the second inductance reaching the desired height over the air gap formed by each of the first clearances (G1). Coupled magnetic element with high dielectric strength and high power density (Z) according to Claim 1 , in which the first iron core (1) has a first inner wall (11), a second inner wall (12), a third inner wall (13) and a fourth inner wall (14) which are assigned to the receiving space, the first inner wall (11 ) the second inner wall (12) and the third inner wall (13) of the fourth inner wall (14) opposite, and wherein between the first inner wall (11) and a first surface (41) of the at least one second iron core (4) one of the first games (G1) and between the second inner wall (12) and a second surface (42) of the at least one second iron core (4) one of the first games (G1) is present, while the third inner wall (13) and the fourth inner wall (14) are in direct contact with the first coil (2). Coupled magnetic element with high dielectric strength and high power density (Z) according to Claim 1 , in which - the receiving space is T-shaped, with two opposite sides of the first iron core (1) being connected to one another via the receiving space, - the first coil (2) has a base body section (21), a first end section (22) and comprises a second end section (23), the base body section (21) being U-shaped, located in the receiving space and connected at one end to the first end section (22) perpendicular thereto and at the other end to the second end section (23) is connected perpendicular thereto, while the first end section (22) and the second end section (23) are located in the receiving space or partially protrude from the first iron core (1). Coupled magnetic element with high dielectric strength and high power density (Z) according to Claim 1 , in which the receiving space is square-shaped and the first coil (2) comprises a main body section (21), a first end section (22) and a second end section (23), the main body section (21) being U-shaped, extending in is located in the receiving space and is connected at both ends to the first end section (22) and the second end section (23), while the first end section (22) and the second end section (23) protrude from the first iron core (1). Coupled magnetic element with high dielectric strength and high power density (Z) according to Claim 1 , in each of which the first coil (2) and the first iron core (1), the first coil (2) and the second coil (3) and the second coil (3) and the at least one second iron core (4) are connected to one another in isolation from one another. Coupled magnetic element with high dielectric strength and high power density (Z) according to Claim 1 , in which the coupled magnetic element with high dielectric strength and high power density (Z) further comprises a plurality of sealing units (5), each of which is removably arranged in the associated first game (G1), the first and the second inductance being provided by the individual Sealing units (5) control the air gap between the first iron core (1) and the at least one second iron core (4) in order to achieve the desired height, and wherein each of the sealing units (5) is made of a non-ferromagnetic material, which is not Ferromagnetic material includes mylar, kraft paper, plastic sheet, glass sheet or is made of various non-ferromagnetic materials. Coupled magnetic element with high dielectric strength and high power density (Z) according to Claim 1 , in which the at least one second iron core (4) are present several times, with a second game (G2) being provided between each two adjacent second iron cores (4), the second inductance via the air gap formed by the second game (G2) desired height reached. Coupled magnetic element with high dielectric strength and high power density (Z) according to Claim 1 , in which the first coil (2) U-shaped or Ω-shaped, the second coil (3) C-shaped and the at least one second iron core (4) is inverted T-shaped, the first iron core (1) and the at least one second iron core (4) consist of a ferritic or soft magnetic material, while the first coil (2) and the second coil (3) are designed as flat coils.

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