A fixing member of solar battery modules for fixing edges of module glass to a roofboard by solar battery modules supporting a first frame body, including: a to-be connected portion to restrict the first frame body from moving upward; a pedestal to restrict the first frame body from moving downward;
A fixing member of solar battery modules for fixing edges of module glass to a roofboard by solar battery modules supporting a first frame body, including: a to-be connected portion to restrict the first frame body from moving upward; a pedestal to restrict the first frame body from moving downward; a portion connecting the pedestal and to-be connected portion to restrict solar battery modules from moving in a direction perpendicular to a longitudinal direction of the first frame body and outwardly along a surface of solar battery modules; and a plate-like portion extending outward farther than one side of the pedestal, the fixing member being fixed to the roofboard through the plate-like portion, supported on both sides of the portion connecting the pedestal and to-be connected portion such that upper surfaces of adjacent solar battery modules are substantially flush with each other, and slidable along the first frame body.
대표청구항▼
1. A fixing member for fixing solar battery modules, wherein each of the solar battery modules includes a polygonal solar battery panel main body having an outer peripheral edge, and the polygonal solar battery panel main bodies supported at the outer peripheral edges by frame bodies adjacent to eac
1. A fixing member for fixing solar battery modules, wherein each of the solar battery modules includes a polygonal solar battery panel main body having an outer peripheral edge, and the polygonal solar battery panel main bodies supported at the outer peripheral edges by frame bodies adjacent to each other are fixed by the fixing member, to a predetermined support member, the fixing member comprising: a to-be connected portion configured to restrict an upward movement of the frame bodies adjacent to each other;a pedestal configured to restrict a downward movement of the frame bodies adjacent to each other restricted by the to-be connected portion from moving upward;a connection portion connecting the pedestal and the to-be connected portion, the connection portion configured to restrict an outward movement of the solar battery module in a lateral direction perpendicular to a longitudinal direction of the frame body and along a surface of the solar battery module restricted from moving downward and upward by the pedestal and the to-be connected portion; anda plate-like portion extending outwardly beyond one side of the pedestal in the lateral direction along which the frame bodies are adjacent to each other, whereinthe fixing member is fixed to the predetermined support member through the plate-like portion, and configured to support the solar battery modules via the frame bodies adjacent to each other at both sides of the connection portion in the lateral direction such that upper surfaces of the solar battery modules are substantially flush with each other, and configured to slide along the frame body in the longitudinal direction, whereinthe to-be connected portion, the pedestal, the connection portion, and the plate-like portion are formed in an integral manner, whereinthe connection portion has a to-be engaged portion formed thereon at one side in the lateral direction, and the frame body out of the frame bodies adjacent to each other has formed thereon an engaging portion facing the to-be engaged portion of the connection portion, whereby the to-be engaged portion and the engaging portion, which are in a hook shape, are capable of being engaged or separated in a resilient manner in the lateral direction. 2. The fixing member according to claim 1, wherein the pedestal is formed with a gap through which a module cable connecting the solar battery modules with each other can be inserted between the solar battery modules and the support member. 3. The fixing member according to claim 1, further comprising cutoff rubber at a bottom of the fixing member. 4. The fixing member according to claim 2, further comprising cutoff rubber at a bottom of the fixing member. 5. The fixing member according to claim 1, wherein the to-be connected portion, the pedestal, and the connection portion are further configured to restrict the frame bodies adjacent to each other from moving upward, downward, and outward along a surface of the solar battery modules in the lateral direction perpendicular to the longitudinal direction of the frame bodies adjacent to each other supporting the outer peripheral edges of the solar battery panel main bodies at a ridge-side and an eaves-side, respectively. 6. The fixing member according to claim 2, wherein the to-be connected portion, the pedestal, and the connection portion are further configured to restrict the frame bodies adjacent to each other from moving upward, downward, and outward along a surface of the solar battery modules in the lateral direction perpendicular to the longitudinal direction of the frame bodies adjacent to each other supporting the outer peripheral edges of the solar battery panel main bodies at a ridge-side and an eaves-side, respectively. 7. The fixing member according to claim 3, wherein the to-be connected portion, the pedestal, and the connection portion are further configured to restrict the frame bodies adjacent to each other from moving upward, downward, and outward along a surface of the solar battery modules in the lateral direction perpendicular to the longitudinal direction of the frame bodies adjacent to each other supporting the outer peripheral edges of the solar battery panel main bodies at a ridge-side and an eaves-side, respectively. 8. The fixing member according to claim 4, wherein the to-be connected portion, the pedestal, and the connection portion are further configured to restrict the frame bodies adjacent to each other from moving upward, downward, and outward along a surface of the solar battery modules in the lateral direction perpendicular to the longitudinal direction of the frame bodies adjacent to each other supporting the outer peripheral edges of the solar battery panel main bodies at a ridge-side and an eaves-side, respectively. 9. The fixing member according to claim 1, further comprising at least one fixing screw hole formed in a predetermined position on the plate-like portion extending outwardly beyond the pedestal. 10. A fixing member for fixing solar battery modules, wherein each of the solar battery modules includes a polygonal solar battery panel main body having an outer peripheral edge, and the polygonal solar battery panel main bodies supported at the outer peripheral edges by frame bodies adjacent to each other are fixed by the fixing member to a predetermined support member, the fixing member comprising: a to-be connected portion configured to restrict an upward movement of the frame bodies adjacent to each other;a pedestal configured to restrict a downward movement of the frame bodies adjacent to each other restricted by the to-be connected portion from moving upward;a connection portion connecting the pedestal and the to-be connected portion, the connection portion configured to restrict an outward movement of the solar battery module in a lateral direction perpendicular to a longitudinal direction of the frame body and along a surface of the solar battery module restricted from moving downward and upward by the pedestal and the to-be connected portion; anda plate-like portion extending outwardly beyond one side of the pedestal in the lateral direction along which the frame bodies are adjacent to each other, whereinthe fixing member is fixed to the predetermined support member through the plate-like portion, and configured to support the solar battery modules via the frame bodies adjacent to each other at both sides of the connection portion in the lateral direction such that upper surfaces of the solar battery modules are substantially flush with each other, and configured to slide along the frame body in the longitudinal direction, whereinthe connection portion extends upward farther than the center of the pedestal, and whereinthe to-be connected portion and the connection portion form a T-shape.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (3)
Kobayashi, Shuichi, Construction method of solar battery modules.
Tomiuchi Shinichi,JPX ; Noda Yosuke,JPX ; Osaka Kenji,JPX ; Takeda Shigeki,JPX ; Yoshida Tomohide,JPX ; Urano Shinji,JPX ; Akai Takayoshi,JPX ; Tanimoto Norihisa,JPX, Mounting system for installing an array of solar battery modules of a panel-like configuration on a roof.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.