DEVICE FOR INDUCTIVE ENERGY TRANSMISSION IN A HUMAN BODY AND USE OF THE DEVICE

Abstract

The invention relates to a device (10) for inductive energy transmission into a human body (1), having a transmitter coil (24) and/or a receiver coil (14) having a first magnetic core (26) and a resonance or choke coil (16, 34) having a second magnetic core (32), wherein the first magnetic core (26) forms a part of the second magnetic core (32).

Claims

1. A device for inductively transmitting energy into or receiving energy within a human body, the device comprising: a first coil including a first magnetic core, wherein the first magnetic core has an end face and is configured to receive a plurality of wire windings at a face opposite the end face, and a second coil including a second magnetic core, the second magnetic core comprising three legs abutting the end face of the first magnetic core, wherein the second coil includes at least one recess extending radially around a middle leg of the three legs, the at least one recess configured to receive a plurality of wire windings.

2. The device according to claim 1, wherein the plurality of wire windings of the second coil wind concentrically around the middle leg of the second magnetic core.

3. The device according to claim 1, wherein the first coil comprises a plurality of first wire windings disposed concentrically relative to one another, wherein the second coil comprises a plurality of second wire windings disposed concentrically relative to one another, and wherein the plurality of first wire windings are disposed radially outside the plurality of second wire windings.

4. The device according to claim 1, wherein the second coil is disposed concentrically to a longitudinal axis of the first magnetic core.

5. The device according to claim 1, wherein the first magnetic core is disc-shaped.

6. The device according to claim 5, wherein the first magnetic core comprises a radially circumferential recess.

7. The device according to claim 1, wherein a wall thickness of the first magnetic core disposed in direct contact with the second magnetic core corresponds to a thickness of the middle leg of the second magnetic core.

8. The device according to claim 1, further comprising a housing surrounding the first coil and the second coil, a height of the housing being equal to a height of the first coil and a height of the second coil.

9. A method for inductively transmitting energy, the method comprising: inductively transmitting energy using a transmitter device and a receiver device, wherein at least one of the transmitter device and the receiver device comprises: a first coil including a first magnetic core, wherein the first magnetic core has an end face and is configured to receive a plurality of wire windings at a face opposite the end face, and a second coil including a second magnetic core, the second magnetic core comprising three legs abutting the end face of the first magnetic core, wherein the second coil includes at least one recess extending radially around a middle leg of the three legs, the at least one recess configured to receive a plurality of wire windings.

10. The method of claim 9, wherein at least one of the transmitter device and the receiver device further comprises a housing, wherein the housing is in at least indirect contact with skin of a human body.

11. The method of claim 9, wherein the transmitter device inductively transmits energy and the receiver device inductively receives energy.

12. The method of claim 11, wherein the energy received at the receiver device is used for charging a battery in communication with the receiver device.

13. A system for inductive energy transmission, the system comprising: a first device including a first coil and a second coil; and a second device, wherein the first coil includes a first magnetic core, wherein the first magnetic core has an end face and is configured to receive a plurality of wire windings at a face opposite the end face and wherein the second coil including a second magnetic core, wherein the second magnetic core comprises three legs abutting the end face of the first magnetic core, wherein the second coil includes at least one recess extending radially around a middle leg of the three legs, the at least one recess configured to receive a plurality of wire windings, and wherein the first and second devices are disposed in alignment on opposite sides of skin of a body to transfer energy into the body.

14. The system of claim 13, wherein the plurality of wire windings of the second coil wind concentrically around the middle leg of the second magnetic core.

15. The system of claim 13, wherein the first coil comprises a plurality of first wire windings disposed concentrically relative to one another, wherein the second coil comprises a plurality of second wire windings disposed concentrically relative to one another, and wherein the plurality of first wire windings are disposed radially outside the plurality of second wire windings.

16. The system of claim 13, wherein the second coil is disposed concentrically to a longitudinal axis of the first magnetic core.

17. The system of claim 13, wherein a wall thickness of the first magnetic core disposed in direct contact with the second magnetic core corresponds to a thickness of the middle leg of the second magnetic core.

18. The system according to claim 13, further comprising a housing surrounding the first coil and the second coil, a height of the housing equal to a height of the first coil and a height of the second coil.

19. The system according to claim 13, wherein the first magnetic core is disc shaped.

20. The system according to claim 19, wherein the first magnetic core comprises a radially circumferential recess.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0016] The only the FIGURE shows a schematic illustration of a device for inductive energy transmission into a human body.

DETAILED DESCRIPTION

[0017] The device 10 shown in the only the FIGURE is in particular configured as a component of a so-called VAD system 100, wherein the VAD system 100 comprises a pump for supporting the heart function of a patient that is operated or supplied with energy via a not-depicted battery. This battery is charged by means of the device 10.

[0018] The device 10 comprises a receiver unit 12 that is disposed in a human body 1 and comprises a housing 13, in which a receiver coil 14, which is shown in the illustration of the FIGURE in a highly simplified manner, is disposed. The receiver coil 14 is used for at least indirect charging of said battery, for example via not-depicted wire connections to the battery and a not-depicted electronic circuit. In addition to the receiver coil 14, the receiver unit 12 further comprises a choke coil 16, which is likewise shown purely schematically and is not a component of a receiving oscillator circuit.

[0019] The receiver unit 12 interacts with a transmitter unit 20 disposed outside the body 1. As an example, the transmitter unit 20 comprises a housing 22 which, on the one hand, can be positioned in at least indirect contact with the skin 2 of the body 1 and in alignment with the receiver unit 12 and, on the other hand, comprises a transmitter coil 24 in its interior. The transmitter coil 24 consists of a disc-shaped first magnetic core 26, which comprises a radially circumferential, groove-like recess 28 on the side facing the receiver unit 12. First wire windings 30, which are disposed concentrically to one another around a longitudinal axis 42 of the first magnetic core 26, are disposed in the region of the recess 28 and serve to produce a not-depicted magnetic field in order to induce electrical energy in the receiver coil 12 which is used to charge said battery.

[0020] As an example, the transmitter coil 24 has a height h.sub.1. On the side of the first magnetic core 26 facing away from the receiver unit 12, a second magnetic core 32 is disposed as part of a resonance or choke coil 34. The second magnetic core 32 is configured in the form of an E-magnetic core 32. Second wire windings 40 of the resonance or choke coil 34 are concentrically wound around a (central) middle leg 38 of the second magnetic core 36.

[0021] As can be seen from the illustration of the FIGURE, the middle leg 38 is also disposed concentrically to the longitudinal axis 42 of the first magnetic core 26. The second wire windings 40 furthermore extend radially inside the first wire windings 30 of the transmitter coil 24.

[0022] With its three legs 37 to 39, the end face 44 of the second magnetic core 36 facing the first magnetic core 26 directly abuts the end face 46 of the first magnetic core 26. The illustration of the FIGURE also shows that, in the region in which the second magnetic core 32 and the first magnetic core 26 overlap, the thickness d of the middle leg 38 of the second magnetic core 32 corresponds to the wall thickness s of the first magnetic core 26. The second magnetic core 32 has a height h.sub.2. The illustration of the FIGURE further shows that the total height H of the housing 22 of the transmitter unit 20 substantially depends on or is determined by the sum of the two heights h.sub.1 and h.sub.2 of the two magnetic cores 26 and 32.

[0023] The device 10 as described thus far can be changed or modified in many ways without departing from the idea of the invention. It is in particular noted that the specific configuration of the transmitter coil 24 and the resonance or choke coil 34, or the magnetic cores 26, 32 thereof, has been described on the basis of the transmitter unit 20. It is just as possible for the described structure to be provided in the same way in the region of the receiver unit 12. This likewise results in a minimization of the overall height of the housing 13 of the receiver unit 12.