초록 ▼

A vacuum solar thermal panel includes a vacuum envelope defining a sealed volume able to withstand atmospheric pressure when evacuated. The envelope includes a first plate made of glass, a second plate facing the first plate, a perimeter frame disposed between the first and second plate close to the

A vacuum solar thermal panel includes a vacuum envelope defining a sealed volume able to withstand atmospheric pressure when evacuated. The envelope includes a first plate made of glass, a second plate facing the first plate, a perimeter frame disposed between the first and second plate close to their edge, a metallic perimeter belt joining the perimeter frame to the first plate, a plurality of spaced apart bearing elements disposed against the edges of the first and second plate, and a plurality of traction rods joining the bearing elements with the perimeter frame to pull the perimeter frame toward the bearing elements, in order to limit the deformation of the perimeter frame under the external atmospheric pressure, when the envelope is evacuated.

대표청구항 ▼

1. A vacuum solar thermal panel, comprising: a vacuum envelope defining a sealed volume that is able to withstand atmospheric pressure when evacuated;at least one heat absorber disposed inside the vacuum envelope; anda pipe entering and exiting the envelope and in contact with the heat absorber,the

1. A vacuum solar thermal panel, comprising: a vacuum envelope defining a sealed volume that is able to withstand atmospheric pressure when evacuated;at least one heat absorber disposed inside the vacuum envelope; anda pipe entering and exiting the envelope and in contact with the heat absorber,the vacuum envelope comprising a first plate made of glass, a second plate facing the first plate, both plates being delimited by edges, a perimeter frame disposed between the first and second plate close to their edges, a metallic perimeter belt joining the perimeter frame to the first plate, a bearing body disposed at the edges of the first and second plate, and traction rods joining said body with said perimeter frame, whereinthe bearing body includes a plurality of spaced apart bearing elements, each provided with at least one of said traction rods,the bearing elements limit deformation of the perimeter frame under the atmospheric pressure when the envelope is evacuated, andend portions of the bearing elements are in direct contact with and pressed against the edges of the first and second plates to oppose an action of the atmospheric pressure, when the envelope is evacuated, that is transferred to the edges of the first and second plates, to limit the deformation of the perimeter frame under the atmospheric pressure. 2. The vacuum solar thermal panel according to claim 1, further comprising a traction mechanism putting the traction rods under tension, to pull the perimeter frame toward the bearing elements. 3. The vacuum solar thermal panel according to claim 2, wherein the traction mechanism comprises a threaded coupling. 4. The vacuum solar thermal panel according to claim 3, wherein the threaded coupling comprises a bolt. 5. The vacuum solar thermal panel according to claim 3, wherein the threaded coupling comprises a nut. 6. The vacuum solar thermal panel according to claim 1, wherein the bearing elements each comprise a washer that is long enough to simultaneously touch both of the edges of the first and second plates. 7. The vacuum solar thermal panel according to claim 1, wherein the perimeter frame comprises a spacer to keep the first and the second plate in a spaced-apart arrangement and a stiffener joined to the spacer and having a curved cross section. 8. The vacuum solar thermal panel according to claim 7, wherein the second plate is made of glass and the stiffener has a substantially “C” shaped cross section. 9. The vacuum solar thermal panel according to claim 7, wherein the second plate is made of metal and the stiffener has a substantially “L” shaped cross section. 10. The vacuum solar thermal panel according to claim 7, wherein: the spacer extends vertically between the first and second plates,the stiffener is coupled to one of the traction rods at a medial portion of the stiffener in cross section that extends vertically between the first and second plates,the stiffener includes a first bent portion that is joined to the spacer,the bent portion is joined to the metallic perimeter belt, which is joined to the first plate, andthe stiffener does not directly contact the first plate. 11. The vacuum solar thermal panel according to claim 10, wherein: the spacer extends vertically between the first and second plates,the stiffener includes a second bent portion that is joined to the spacer,the second bent portion is joined to another metallic perimeter belt, which is joined to the second plate, andthe stiffener does not directly contact the second plate. 12. The vacuum solar thermal panel according to claim 10, wherein a gap is provided between the medial portion of the stiffener and the spacer in cross section. 13. The vacuum solar thermal panel according to claim 1, wherein the perimeter frame has at least two support points disposed at a distance from each other comprised between 160 and 240 mm.