초록 ▼

Manikin for the training of medical personnel and the like, comprising electrical circuitry for sensing of input parameters and controlling of output parameters. The manikin comprises a plate comprising metal, for the conduction of heat generated by said electrical circuitry, away from said circuitr

Manikin for the training of medical personnel and the like, comprising electrical circuitry for sensing of input parameters and controlling of output parameters. The manikin comprises a plate comprising metal, for the conduction of heat generated by said electrical circuitry, away from said circuitry. The said plate serves as a structural part, as it is connected, directly or indirectly, to at least one of the group consisting of thighs, pelvis, neck (head), and arms. Furthermore, the plate constitutes at least a part of a Faraday cage surrounding a manikin main board.

대표청구항 ▼

1. A manikin comprising: a heat-conductive air-impermeable body surrounding a cavity;electrical circuitry disposed in the cavity, the electrical circuitry sensing input parameters and controlling output parameters; anda Faraday cage proximate to the electrical circuitry, the Faraday cage comprising

1. A manikin comprising: a heat-conductive air-impermeable body surrounding a cavity;electrical circuitry disposed in the cavity, the electrical circuitry sensing input parameters and controlling output parameters; anda Faraday cage proximate to the electrical circuitry, the Faraday cage comprising a plate thermally exposed to the electrical circuitry and interoperably coupled to at least one of a thigh, a pelvis, a neck, a head, and an arm, the plate comprising metal that conducts heat generated by the electrical circuitry away from the electrical circuitry. 2. The manikin according to claim 1, wherein the plate is arranged parallel to a main board disposed in the manikin for dissipation of heat generated by the main board. 3. The manikin according to claim 1, wherein the plate is arranged for circulation of air from one side of the plate to another side of the plate. 4. The manikin according to claim 1, wherein the plate comprises at least one aperture for flow-through of cooling air. 5. The manikin according to claim 4, wherein a fan is arranged in association to the plate for providing air flow through the at least one aperture. 6. The manikin according to claim 3, wherein the plate is arranged in such way that cooling air flows in a space between the plate and the main board. 7. The manikin according to claim 4, comprising: an element on the main board, wherein the element generates heat, and an aperture in the plate is arranged in corresponding locations, so that cooling air is flown directly on the element. 8. The manikin according to claim 1, wherein the plate is in thermal contact with heat generating circuitry. 9. The manikin according to claim 1, wherein all heat produced in the manikin is lead to the surroundings by heat conduction through exterior parts of the manikin, wherein exterior parts of the manikin comprise imitated skin. 10. The manikin according to claim 4, wherein the at least one aperture is covered with a metal grid, the metal grid constitutes part of the Faraday cage through which air can flow freely. 11. The manikin according to claim 5, wherein: the manikin is provided with sensing means for sensing presence of listening apparatuses; andwherein the fan is operable to be switched off during presence of the listening apparatus. 12. The manikin according to claim 1, wherein the plate is arranged in a torso region of the manikin and has a width of at least ½ of a width of the torso region. 13. The manikin according to claim 1, wherein the plate is arranged with a reception section for a heart compression resistance spring. 14. The manikin according to claim 1, wherein the said plate is one of a plurality of cooling plates. 15. The manikin according to claim 14, wherein at least two of the plurality of cooling plates are thermally connected. 16. The manikin of claim 13, wherein the heart compression resistance spring facilitates conductive transfer of heat from the plate. 17. The manikin of claim 1, wherein a flexible thermal conductor is disposed between the plate and at least a portion of the electrical circuitry. 18. The manikin of claim 17, wherein a second aluminum plate is disposed between the plate and at least a portion of the electrical circuitry.