Solar module with connection socket, and method for producing the same

The invention claimed is: 1. A solar module, comprising: a laminated composite comprising a carrier substrate and a cover substrate, between which a layer structure is situated, the layer structure comprising a front electrode layer, a rear electrode layer, and an intermediate semiconductor layer for forming a plurality of solar cells connected in series, a first spring contact element electrically conductively connected to the rear electrode layer and a second spring contact element electrically conductively connected to the front electrode layer, wherein the first spring contact element and the second spring contact element are completely situated inside at least one cavity formed by at least one contact hole of the carrier substrate, at least one plate-shaped covering element mounted on the carrier substrate provided with the at least one contact hole, the at least one plate-shaped covering element overlying an outer surface of the carrier substrate away from the layer structure to seal the at least one contact hole and to spring load the first spring contact element and the second spring contact element, a first contact piece and a second contact piece connected to the at least one plate-shaped covering element, wherein the first contact piece is implemented as contact pin and is electrically conductively connected to the first spring contact element, and wherein the second contact piece is implemented as contact pin and is electrically conductively connected to the second spring contact element, and at least one connection socket that is mounted, encompassing the at least one plate-shaped covering element, on the carrier substrate provided with the at least one contact hole and has a first mating contact piece and a second mating contact piece, each being implemented as spring clamping element, wherein the first mating contact piece is electrically conductively connected to the first contact piece in the form of a first plug connection, wherein the second mating contact piece is electrically conductively connected to the second contact piece in the form of a second plug connection, and wherein the first contact piece automatically makes electrical contact with the first spring contact element and wherein the second contact piece automatically makes electrical contact with the second spring contact element when mounting the at least one plate-shaped covering element on the carrier substrate provided with the at least one contact hole. 2. The solar module according to claim 1 , wherein the first spring contact element is electrically conductively connected via a strip-shaped busbar to the rear electrode layer and the second spring contact element is electrically conductively connected via a strip-shaped bus bar to the front electrode layer. 3. The solar module according to claim 1 , wherein the first spring contact element and the second spring contact element are each implemented as an elastically deformable spring contact element having a substantially U-shape, wherein one leg of the U-shape is in contact along a longitudinal portion of the leg with the at least one plate-shaped covering element. 4. The solar module according to claim 1 , wherein the at least one connection socket is mounted by the first plug connection and the second plug connection on the carrier substrate provided with the at least one contact hole. 5. The solar module according to claim 4 , wherein the first electrical plug connections and the second electrical plug connection each have a latching member. 6. The solar module according to claim 1 further comprising a sealing compound sealing the solar cells against water and vapor of introduced into the at least one contact hole. 7. The solar module according to claim 6 , wherein the first spring contact elements and the second spring contact element are fixed in the at least one contact hole by the sealing compound. 8. The solar module according to claim 1 , wherein the at least one plate-shaped covering element is mounted by a substance-to-substance bond on the carrier substrate provided with the at least one contact hole. 9. The solar module according to claim 8 , wherein the substance-to-substance bond between the at least one plate-shaped covering element and the carrier substrate is implemented all around the contact hole. 10. The solar module according to claim 1 , wherein the first contact piece and the second contact piece each are connected to the at least one plate-shaped covering element by a detachable connection. 11. The solar module according to claim 10 , wherein the detachable connection is a screw connection. 12. The solar module of claim 1 , the solar module being a thin-film solar module. 13. The solar module according to claim 1 , wherein the at least one cavity formed by the at least one contact hole comprises two cavities formed in a respective contact hole of two contact holes, wherein the at least one plate-shaped covering element comprises two plate-shaped covering elements to seal a respective one of the two contact holes and to spring load a respective one of the first and the second spring contact element, and wherein the at least one connection socket comprises two connection sockets, each mounted, encompassing a respective one of the two plate-shaped covering elements, and each having a respective one of the first and second mating contact pieces. 14. The solar module according to claim 1 , wherein the at least one connection socket comprises a single connection socket. 15. A solar module, comprising: a laminated composite comprising a carrier substrate and a cover substrate, between which a layer structure is situated, the layer structure comprising a front electrode layer, a rear electrode layer, and an intermediate semiconductor layer for forming a plurality of solar cells connected in series, a first spring contact element electrically conductively connected to the rear electrode layer and a second spring contact element electrically conductively connected to the front electrode layer, wherein the first spring contact element and the second spring contact element are completely situated inside-at least one cavity formed by at least one contact hole of the carrier substrate, at least one plate-shaped covering element mounted on the carrier substrate provided with the at least one contact hole, the at least one plate-shaped covering element overlying an outer surface of the carrier substrate away from the layer structure to seal the at least one contact hole and to spring load the first spring contact element and the second spring contact element, a first contact piece and a second contact piece connected to the at least one plate-shaped covering element, wherein the first contact piece is implemented as contact pin and is electrically conductively connected to the first spring contact element, and wherein the second contact piece is implemented as contact pin and is electrically conductively connected to the second spring contact element, and at least one connection socket that is mounted, encompassing the at least one plate-shaped covering element, on the carrier substrate provided with the at least one contact hole and has a first mating contact piece and a second mating contact piece, each being implemented as spring clamping element, wherein the first mating contact piece is electrically conductively connected to the first contact piece in the form of a first plug connection, wherein the second mating contact piece is electrically conductively connected to the second contact piece in the form of a second plug connection, and wherein the first con