Transport system for transport of products

The invention claimed is: 1. A transport system for transport of products, comprising: a guide path and at least a mobile carriage for transport of products movable along the guide path, wherein the guide path is conformed in such a way as to comprise a first guide profile and a second guide profile; the first guide profile being conformed in such a way as to have a first rolling wall and a second rolling wall, the second guide profile being conformed in such a way as in turn to have a first rolling wall and a second rolling wall; wherein the mobile carriage comprises: at least a first pair of rollers being mounted rotatably on a first rotation shaft borne by the carriage, the rollers of the at least the first pair of rollers being made of a plastic material and having a shape that is such as to have an internal wall for coupling with the first rotation shaft and a lateral external wall having a main portion and a contact portion and being mounted on the first rotation shaft so that a first roller is in contact via the relative contact portion with the first rolling wall of the first guide profile and so that a second roller is in contact via the relative contact portion with the second rolling wall of the first guide profile so that when the mobile carriage is moved along the guide path, the first roller can roll along the first rolling wall of the first guide profile and the second roller can roll along the second rolling wall of the first guide profile; and at least a second pair of rollers which are mounted rotatably on a second rotation shaft borne by the carriage, the rollers of the at least the second pair of rollers being made of a plastic material and having a shape that is such as to have an internal wall for coupling with the second rotation shaft and a lateral external wall having a main portion and a contact portion and being mounted on the second rotation shaft so that a first roller is in contact via the relative contact portion with the first rolling wall of the second guide profile and so that a second roller is in contact via the relative contact portion with the second rolling wall of the second guide profile so that when the mobile carriage is moved along the guide path, the first roller can roll along the first rolling wall of the second guide profile and the second roller can roll along the second rolling wall of the second guide profile; further comprising: for each roller of the first pair of rollers and for each roller of the second pair of rollers, a reinforcing element which is friction-coupled to at least a part of the main portions of the external lateral walls of the rollers. 2. The transport system of claim 1 , wherein each reinforcing element is conformed in such a way as to comprise a relative friction-coupling seating having a shape and dimensions such as to receive in friction-coupling a corresponding roller of the rollers at least at a part of the main portions of the relative external lateral walls of the rollers. 3. The transport system of claim 2 , wherein each reinforcing element is conformed in such a way as to comprise an abutting base and a first lateral wall having a shape and dimensions such as to define there-between the friction-coupling seating, the abutting base which is in contact with and abutment against a head of the roller and the first lateral wall which is in contact with and abutment against a part of the main portion of the roller once the reinforcing element is friction-coupled to the roller. 4. The transport system of claim 3 , wherein each reinforcing element friction-coupled to the rollers of the first pair of rollers comprises a central axial hole at the relative abutting base to enable passage of the first rotation shaft and wherein each reinforcing element friction-coupled to the rollers of the second pair of rollers comprises a central axial hole at the relative abutting base for enabling passage of the second rotation shaft. 5. The transport system of claim 4 , wherein each reinforcing element further comprises a second lateral wall, coaxial and delimiting the central axial hole, the second lateral wall having such dimensions as to be in contact with and abutment against the internal wall of the roller once the reinforcing element is friction-coupled to the roller. 6. The transport system of claim 1 , wherein each reinforcing element is made of metal. 7. The transport system of claim 1 , wherein the rollers of the first pair of rollers are rotatably mounted on the first rotation shaft independently of one another, and wherein the rollers of the second pair of rollers are rotatably mounted on the second rotation shaft independently of one another. 8. The transport system of claim 1 , wherein the first rotation shaft and the second rotation shaft are predisposed and mounted on the mobile carriage so as to be parallel to one another. 9. The transport system of claim 1 , wherein the rollers of the first pair of rollers are rotatably mounted on the first rotation shaft by means of relative bearings and wherein a first spacer member is mounted on the first rotation shaft sous to be interposed between the bearings so as to maintain the rollers reciprocally distanced in relation to the distance between the first rolling wall and the second rolling wall of the first guide profile; wherein the rollers of the second pair of rollers are mounted on the second rotation shaft by means of relative bearings and wherein a second spacer member is mounted on the second rotation shaft so as to be interposed between the bearings so as to maintain the rollers of the second pair of rollers reciprocally distanced in relation to the distance between the first rolling wall and the second rolling wall of the second guide profile. 10. The transport system of claim 9 wherein: the rollers of the first pair of rollers are mounted on the first rotation shaft in such a way that at least one thereof is demountable from the first rotation shaft so as to enable replacement of the first spacer member with a further spacer member having different dimensions; the rollers of the second pair of rollers are mounted on the second rotation shaft in such a way that at least one thereof is demountable from the second rotation shaft so as to enable replacement of the second spacer member with a further spacer member having different dimensions. 11. The transport system of claim 1 , wherein: the contact portion of the rollers of the first pair of rollers has a truncoconical shape or a spherical cap shape; and wherein the contact portion of the rollers of the second pair of rollers has a truncoconical shape or a spherical cap shape. 12. The transport system of claim 1 wherein each reinforcing element is made of stainless steel.