A vacuum solar thermal panel including a vacuum envelope defining a sealed volume and able to withstand atmospheric pressure when evacuated, at least one heat absorber being disposed inside the vacuum envelope, a pipe entering and exiting the envelope and being in contact with the heat absorber, the
A vacuum solar thermal panel including a vacuum envelope defining a sealed volume and able to withstand atmospheric pressure when evacuated, at least one heat absorber being disposed inside the vacuum envelope, a pipe entering and exiting the envelope and being in contact with the heat absorber, the vacuum envelope including a first plate made of glass, a peripheral frame, a metallic peripheral belt being joined to the first plate by way of a vacuum tight bulk glass-metal seal, including glass material and obtained by fusion and subsequent solidification. The metallic peripheral belt includes at least one elastically deformable portion that prevents the bulk glass-metal seal from getting damaged and is no more vacuum tight when subject to the evacuation process of the envelope and the thermal treatments of the panel and the potential reciprocal displacements of the glass plate and the joined metallic peripheral belt.
대표청구항▼
1. A vacuum solar thermal panel comprising: a vacuum envelope defining a sealed volume and able to withstand atmospheric pressure when evacuated;at least one heat absorber being disposed inside the vacuum envelope;a pipe entering and exiting the envelope and being in contact with the heat absorber,w
1. A vacuum solar thermal panel comprising: a vacuum envelope defining a sealed volume and able to withstand atmospheric pressure when evacuated;at least one heat absorber being disposed inside the vacuum envelope;a pipe entering and exiting the envelope and being in contact with the heat absorber,wherein said vacuum envelope comprises a first plate made of glass defining a top surface of the vacuum envelop,a second plate made of glass defining a bottom surface of the vacuum envelop,a peripheral frame disposed substantially at the periphery of the first plate and the second plate,a metallic peripheral belt joining the peripheral frame to the first plate,wherein said metallic peripheral belt is continuous and vacuum tight and is joined to the first glass plate and to the peripheral frame by way of a vacuum tight seal,wherein said vacuum tight seal between said metallic peripheral belt and said first glass plate is a vacuum tight bulk glass-metal seal comprising glass material, said vacuum tight glass-metal seal being obtained by fusion and subsequent solidification of said glass material,wherein said glass material of the vacuum tight bulk glass-metal seal embeds the metallic peripheral belt such that said glass material adheres to two opposite surfaces of the metallic peripheral belt and to said first plate on either side of the metallic peripheral belt, andwherein said metallic peripheral belt comprises at least one elastically deformable curved portion being disposed between two portions of the metallic peripheral belt which are less elastically deformable than the at least one elastically deformable curved portion and being at least elastically deformable such that the metallic peripheral belt prevents said bulk glass-metal seal from being damaged and is no more vacuum tight when subject to an evacuation process of the envelope and the thermal treatments of the panel and the potential reciprocal displacements of the glass plate and the joined metallic peripheral belt. 2. The vacuum solar thermal panel according to claim 1, wherein said glass material of the vacuum tight bulk glass-metal seal embeds the peripheral belt such that an edge of the peripheral belt contacts the first glass plate. 3. The vacuum solar thermal panel according to claim 1, wherein said vacuum tight bulk glass-metal seal is obtained by localised fusion and subsequent solidification of glass material of the first plate close to the edge of the peripheral belt. 4. The vacuum solar thermal panel according to claim 1, wherein said vacuum tight bulk glass-metal seal comprises a meniscus of frit glass at both sides of the metallic peripheral belt and joining the metallic peripheral belt to the first glass plate. 5. The vacuum solar thermal panel according to claim 1, wherein the vacuum solar thermal panel comprises a second plate, substantially parallel to the first plate, in order to obtain a flat solar thermal panel, the heat absorber being placed between the first and the second plate inside the vacuum envelope. 6. The vacuum solar thermal panel according to claim 1, wherein the at least one elastically deformable portion of the metallic peripheral belt is at least elastically deformable such that it permits an elastic deformation of said metallic peripheral belt of at least 0.1 mm with respect to an axis perpendicular to the glass plate. 7. The vacuum solar thermal panel according to claim 1, wherein the metallic peripheral belt comprises an intermediate portion provided between a first and a second portion of said metallic belt, said first portion joining the first glass plate and comprising the vacuum tight bulk glass metal seal, said second portion of said metallic belt joining the peripheral frame, and comprising a vacuum tight metal-metal seal, the at least one elastically deformable portion being provided in said intermediate portion. 8. The vacuum solar thermal panel according to claim 1, wherein the at least one elastically deformable portion comprises at least one non rectilinear part, or at least one at least partially curved part, or at least one ribbing, and wherein the ribbing is of semicircular form, has about 2 mm radius, and runs for the whole length of the peripheral belt. 9. The vacuum solar thermal panel according to claim 2, wherein the edge of the peripheral belt embedded in the vacuum tight bulk glass-metal seal is approximately perpendicular to the glass plate. 10. The vacuum solar thermal panel according to claim 1, wherein the peripheral belt has a thickness comprised between 0.1 and 1 mm. 11. The vacuum solar thermal panel according to claim 4, wherein the frit glass of the vacuum tight bulk glass-metal seal comprises a thermal expansion coefficient slightly lower than that of the glass plate and metallic belt to be sealed.
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