Mobile concrete pump and production method

What is claimed is: 1. A mobile concrete pump, comprising: a carrying structure fixed to a vehicle and having a delimiting wall; a support leg hinge-jointed to the carrying structure via a hinge point, the hinge point comprising two bearing plates made from solid material, each bearing plate provided with a bearing bore, the two bearing bores forming a pair of mutually aligned bearing bores, the two bearing plates projecting in a forked manner at a lateral distance from each other over the delimiting wall; and the hinge point including a hinge pin extending vertically through the mutually aligned pair of bearing bores; wherein the delimiting wall faces the hinge pin and has a greater distance from the axis of the hinge pin in a middle region of the hinge pin, between the bearing plates, than in edge regions of the hinge pin that are adjacent to the bearing plates. 2. The mobile concrete pump as claimed in claim 1 , wherein the delimiting wall has a concave or angular hollow contour facing toward the hinge pin. 3. The mobile concrete pump as claimed in claim 1 , wherein the delimiting wall has two wall parts that taper toward each other at an obtuse angle, wherein the wall parts delimit a free space having a triangular cross-section. 4. The mobile concrete pump as claimed in claim 1 , wherein the delimiting wall is welded to an upper flange and a lower flange and the bearing plates are rigidly fastened to the upper and the lower flange. 5. The mobile concrete pump as claimed in claim 1 , wherein the bearing bores are formed by means of a drilling or milling-cutting tool in the solid material of the bearing plate. 6. The mobile concrete pump as claimed in claim 1 , wherein the bearing plates comprise solid metal plates with a thickness of more than 20 mm. 7. The mobile concrete pump as claimed in claim 1 , wherein the distance between the edge of the bearing bores and the delimiting wall is less than the diameter of the bearing bores. 8. The mobile concrete pump as claimed in claim 1 , wherein the support leg is hinge-coupled to the hinge pin via two bearing link plates, wherein the bearing plates and bearing link plates overlap each other laterally in pairs. 9. The mobile concrete pump as claimed in claim 1 , wherein the hinge pin has a lesser diameter in the middle region, between the bearing plates, than end portions of the hinge pin that extend through the bearing plates. 10. A mobile concrete pump, comprising: a carrying structure fixed to a vehicle and having a delimiting wall; a support leg hinge-jointed to the carrying structure; two bearing plates made from solid material, each bearing plate provided with a bearing bore, the two bearing bores forming a pair of mutually aligned bearing bores, the two bearing plates each having a fork projecting over the delimiting wall; a hinge pin extending vertically through the mutually aligned pair of bearing bores, wherein the hinge pin has a lesser diameter in a middle region thereof, between the bearing plates, than in in end portions of the hinge pin that extend through the bearing plates. 11. A method for producing a hinge point for the support legs of a mobile concrete pump as claimed in claim 10 , the method comprising the following steps: placing a tool head of a machining center in a free space between the edges of the delimiting wall that has a hollow contour; and using the tool head to machine a bearing bore in a first one of the bearing plates. 12. The method as claimed in claim 11 , wherein the tool head, for the purpose of producing the bearing bore in the first one of the bearing plates, is moved in a first feed direction and, for the purpose of producing a second bearing bore in the second bearing plate, is moved in a second feed direction that is opposite to the first feed direction. 13. The mobile concrete pump as claimed in claim 10 , wherein the support leg comprises at least two support legs. 14. A method for producing a hinge point for the support legs of a mobile concrete pump as claimed in claim 1 , the method comprising the following steps: placing a tool head of a machining center in a free space between the edges of the delimiting wall that has a hollow contour; and using the tool head to machine a bearing bore in a first one of the bearing plates. 15. The method as claimed in claim 14 , wherein the tool head, for the purpose of producing the bearing bore in the first one of the bearing plates, is moved in a first feed direction and, for the purpose of producing a second bearing bore in the second bearing plate, is moved in a second feed direction that is opposite to the first feed direction. 16. The mobile concrete pump as claimed in claim 1 , wherein the support leg comprises at least two support legs.