Glass panel unit, glass window, and method for manufacturing glass panel unit

The invention claimed is: 1. A glass panel unit comprising: a first glass substrate; a second glass substrate placed facing the first glass substrate; a sealing member hermetically bonding outer peripheries of the first glass substrate and the second glass substrate to each other; an inside space hermetically enclosed by the first glass substrate, the second glass substrate, and the sealing member and having reduced pressure; and a plurality of spacers placed in the inside space, wherein: the first glass substrate includes a wire-embedded glass panel with a wire structure embedded therein, and an additional glass panel having no wire structure embedded therein stacked with the wire-embedded glass panel; the second glass substrate has no wire structure embedded therein; the additional glass panel having no wire structure embedded therein is stacked on a side of the wire-embedded glass panel which is closer to the inside space than another side of the wire-embedded glass panel; the plurality of spacers are arranged so as to overlap with part of the wire structure in a plan view; and a total pattern of a combination of the plurality of spacers and the wire structure is repeated regularly in all directions in the plan view. 2. The glass panel unit according to claim 1 , wherein: the wire structure including a plurality of wires crossing to form a mesh in the plan view; the plurality of spacers are positioned to overlap with intersections of the plurality of wires in the plan view. 3. A glass window comprising: the glass panel unit according to claim 1 ; and a window frame into which an outer periphery of the glass panel unit is fitted. 4. A method for manufacturing glass panel unit, comprising: a placing step of placing a pair of glass panels having no wire structure embedded therein to face each other with a plurality of spacers in-between; a bonding step of hermetically bonding outer peripheries of the pair of glass panels to each other to form an inside space between the pair of glass panels; a pressure reducing step of reducing pressure of the inside space; and a mounting step of mounting a glass panel with a wire structure embedded therein on at least one of the pair of glass panels so that the plurality of spacers overlap with part of the wire structure in a plan view; wherein: the glass panel with the wire structure embedded therein is mounted on a side of the at least one of the pair of glass panels which is further from the inside space than another side of the at least one of the pair of glass panels; the placing step includes a spacer forming step of forming the plurality of spacers by removing part of a seat member by punching with a punch and placing the part by the punch according to a predetermined arrangement pattern; and the mounting step includes arranging a total pattern of a combination of the plurality of spacers and the wire structure is repeated regularly in all directions in the plan view. 5. A glass panel unit comprising: a first glass substrate; a second glass substrate placed facing the first glass substrate; a sealing member hermetically bonding outer peripheries of the first glass substrate and the second glass substrate to each other; an inside space hermetically enclosed by the first glass substrate, the second glass substrate, and the sealing member and having reduced pressure; and a plurality of spacers placed in the inside space, wherein: the first glass substrate and the second glass substrate each include a corresponding wire-embedded glass panel with a wire structure embedded therein, and a corresponding additional glass panel having no wire structure embedded therein stacked with the wire-embedded glass panel; the additional glass panel having no wire structure embedded therein in each of the first glass substrate and the second glass substrate is stacked on a side of the corresponding wire-embedded glass panel which is closer to the inside space than another side of the corresponding wire-embedded glass panel; the plurality of spacers are arranged so as to overlap with part of the wire structure in a plan view; and a total pattern of a combination of the plurality of spacers and the wire structure in each of the first glass substrate and the second glass substrate is repeated regularly in all directions in the plan view.