CN211874348U - Lighting window capable of generating power - Google Patents

Abstract

The utility model discloses a lighting window that can generate electricity, including inside and outside double glazing, support the strake, roll up the curtain ware, busbar and window frame, inside and outside double glazing's four sides are provided with the support strake, it is inboard at the four sides of window frame to support the strake setting, the busbar of lower extreme is fixed on the support strake of lower extreme on the window, the inboard fixed roll curtain ware of the support strake of controlling one side, the vertical PCB board of arranging the grid form between the inside and outside double glazing, the center of PCB board is provided with the center pillar, roll up the curtain ware from taking step motor, roll up the curtain ware and pass through stay cord and every PCB board connection, it drives every PCB board through the stay cord and encloses around the center pillar rotation to roll up the curtain ware. The utility model discloses a vertical PCB board of arranging the grid form between double glazing, through PCB board pivoted angle, how much the sunshine of regulation through the window, the positive and negative of PCB board sets up solar cell panel and LED lamp pearl respectively simultaneously, and solar cell panel can generate electricity, provides the power consumption of part indoor lighting through solar cell panel, guarantees indoor light demand.

Description

Lighting window capable of generating power

Technical Field

The utility model relates to a lighting window, concretely relates to lighting window that can generate electricity.

Background

The window is the indispensable part in the building now, and the demand for indoor daylighting on the one hand, and on the other hand is indoor ventilation use, moreover because life comfort level and pleasing to the eye demand, the ratio of taking up of window and wall is bigger and bigger.

Because the window is a weak part of the building envelope structure, the window can cause a large amount of cold and heat loss due to factors such as solar radiation heat, indoor and outdoor temperature difference heat transfer, air circulation and the like.

At present, the amount of sunlight entering a room is adjusted through a window, the external shutter is mainly used, a certain shading function is achieved through the opening and closing functions of the blades, but the function is limited, and illumination cannot be provided for the room.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a lighting window that can generate electricity can reduce the building energy consumption to provide the power consumption of partial indoor lighting through solar panel, guarantee the indoor light demand.

The utility model provides a following technical scheme:

the utility model provides a lighting window that can generate electricity, includes inside and outside double glazing, supports the strake, rolls up curtain ware, busbar and window frame, inside and outside double glazing's four sides are provided with the support strake, it is inboard at the four sides of window frame to support the strake setting, the busbar of lower extreme is fixed on the window on the support strake of lower extreme, controls the inboard fixed curtain ware that rolls up of the support strake of one side, the vertical PCB board of arranging the grid form between the inside and outside double glazing, the center of PCB board is provided with the center post, it is from taking step motor to roll up the curtain ware, it passes through stay cord and every PCB board connection to roll up the curtain ware, it drives every PCB board through the stay cord and surrounds the center post rotation to roll up the.

Further, the upper and lower ends of PCB board all are provided with anodal copper cylinder and negative pole copper cylinder, the PCB face is provided with LED lamp pearl to indoor one side, the PCB face is provided with solar cell panel to outdoor one side.

Furthermore, an upper end bus bar and a lower end bus bar are respectively arranged at the upper end part and the lower end part of the window, and the upper end bus bar and the lower end bus bar are respectively fixed on an upper end supporting edge strip and a lower end supporting edge strip of the window.

Further, be provided with first anodal arc recess and first negative pole arc recess on the upper end busbar, first anodal arc recess is connected with first positive polar line, and all first positive polar lines collect the back and connect the positive polar line to connect out the copper sheet, the positive polar line connects out the copper sheet and passes through the copper shell fragment to be connected with first anodal copper bar, and first negative pole arc recess is connected with first negative pole line with the same reason, and all first negative pole lines collect the back and connect the negative pole line to connect out the copper sheet, the negative pole line connects out the copper sheet and passes through the copper shell fragment to be connected with first negative pole copper bar, first anodal copper bar, first negative pole copper bar set up both ends about supporting the strake in the window upper end.

Further, set up anodal arc recess of second and second negative pole arc recess on the lower extreme busbar, anodal copper recess of LED lamp pearl busbar is met after the anodal arc recess of second collects through the second positive pole line, anodal copper recess of LED lamp pearl busbar is connected with the anodal copper bar of second, and second negative pole arc recess and second negative pole line connection are connected to the same reason, and all second negative poles line collect and meet LED lamp pearl busbar negative pole copper recess, LED lamp pearl busbar negative pole copper recess is connected with second negative pole copper bar, the anodal arc recess of second and second negative pole arc recess insert external power supply's positive negative pole respectively, second positive pole copper bar, second negative pole copper bar set up both ends about window lower extreme support strake.

Furthermore, the left side and the right side of the upper end supporting edge strip are respectively provided with a copper elastic sheet, one end of each copper elastic sheet is fixed on the upper end supporting edge strip, a first positive copper strip and a first negative copper strip are embedded in the upper end supporting edge strip, and the other ends of the first positive copper strip and the first negative copper strip are connected to an external power system; and the other end of the copper elastic sheet and the solar copper wire outgoing part on the upper end busbar are tightly pressed.

Further, both ends set up anodal copper bar of second and second negative pole copper bar about the lower extreme support strake, the lower extreme busbar then sets up anodal copper recess of LED lamp pearl busbar, LED lamp pearl busbar negative pole copper recess, and the anodal copper bar of second and the second negative pole copper bar in close contact with on the lower extreme support strake.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a vertical PCB board of arranging the grid form between double glazing, through PCB board pivoted angle, how much the sunshine of regulation through the window, the positive and negative of PCB board sets up solar cell panel and LED lamp pearl respectively simultaneously, and solar cell panel can generate electricity, provides the power consumption of part indoor lighting through solar cell panel, guarantees indoor light demand.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the reverse side of the PCB of the present invention.

Fig. 3 is a front schematic view of the PCB of the present invention.

Fig. 4 is the utility model discloses window upper end supports strake and busbar schematic structure.

Fig. 5 is the utility model discloses window lower extreme supports strake and busbar schematic structure.

Fig. 6 is a top view of the bus bar of the present invention.

Fig. 7 is an enlarged schematic view of a portion a in fig. 5.

In the figure: 1. inner and outer double-layer glass;

2. a supporting edge strip 21, an upper end supporting edge strip 22 and a lower end supporting edge strip;

3. a shutter rolling device 31, a pull rope;

4. a bus-bar,

41. the upper end bus bar 411, a first positive electrode arc-shaped groove 412, a first negative electrode arc-shaped groove 413, a first positive electrode wire 414, a copper sheet connected with the positive electrode wire 415, a copper elastic sheet 416, a first positive electrode copper strip 417, a first negative electrode wire 418, a copper sheet connected with the negative electrode wire 419 and a first negative electrode copper strip;

42. the LED lamp bead bus bar comprises a lower end bus bar body, 421, a second positive electrode arc-shaped groove, 422, a second negative electrode arc-shaped groove, 423, a second positive electrode wire, 424, an LED lamp bead bus bar positive electrode copper groove, 425, a second positive electrode copper bar, 426, a second negative electrode wire, 427, an LED lamp bead bus bar negative electrode copper groove, 428 and a second negative electrode copper bar;

43. a support groove;

5. a window outer frame;

6. PCB board, 61, central pillar, 62, LED lamp pearl, 63, solar cell panel, 64, anodal copper cylinder, 65, negative pole copper cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the utility model discloses a lighting window that can generate electricity includes inside and outside double glazing 1, supports strake 2, book curtain ware 3, busbar 4 and window frame 5, and inside and outside double glazing 1's four sides is provided with supports strake 2, and support strake 2 sets up at the four sides of window frame 5 inboardly, and the busbar 4 of lower extreme is fixed on the support strake 2 of window upper and lower extreme, controls the inboard fixed book curtain ware 3 of support strake 2 of one side.

As shown in fig. 2 and 3, a sealing structure is arranged between the inner and outer double-layer glass 1, the grid-shaped PCB 6 is vertically arranged between the inner and outer double-layer glass 1, a central upright post 61 is arranged at the center of the PCB 6, an anode copper cylinder 64 and a cathode copper cylinder 65 are arranged at the upper and lower ends of the PCB 6, the PCB 6 is provided with an LED lamp bead 62 facing the indoor side, and the PCB 6 is provided with a solar cell panel 63 facing the outdoor side.

The PCB is fixed by a support, the length of the support is slightly lower than the height of the window, the distance between the support and the window frame is smaller than 0.2 mm, the width of the support is slightly smaller than the distance between the double-layer glass, the support and the double-layer glass are sequentially arranged, and when the PCB is arranged in a plane, the distance between the two plates is smaller than 0.2 mm.

The thickness of the inner and outer double-layer glass is 5 mm, the distance of the middle interlayer is 23 mm, the tolerance is +/-0.5 mm, the window height is not more than 2400 mm, and the width is an integer which is multiplied by the width of the grid-shaped PCB board and is added with the width of the two side frames.

The glass facing outdoors has better transparency, and the glass facing indoors requires strong heat resistance so as to reduce indoor heat loss. The strake is supported to the left and right sides and is used cavity glass strake commonly used, wherein, the inboard of the support strake of one side about is fixed and is rolled up curtain ware 3, roll up curtain ware 3 from taking step motor, it connects through stay cord 31 and every PCB board 6 to roll up curtain ware 3, when step motor rotated, it rotates around center pillar 61 to roll up curtain ware 3 to drive every PCB board 6 through stay cord 31, indirect step motor control PCB board pivoted angle like this, adjust the clearance between every PCB board 6, adjust how much through the sunshine of window, and then adjust indoor luminance.

An upper end busbar 41 and a lower end busbar 42 are respectively provided at the upper end portion and the lower end portion of the window, and the upper end busbar 41 and the lower end busbar 42 are respectively fixed to the upper end support edge 21 and the lower end support edge 22 of the window.

As shown in fig. 4, the upper bus bar 41 is mainly used for collecting the electric energy of the solar cell panel 63, an arc groove (fig. 5) with a center as a center column is disposed on the upper bus bar 41, the central supporting groove 43 is used for mounting the center column 61 of the PCB 6, each PCB corresponds to two arc grooves, the arc grooves are used for mounting two copper cylinders on the PCB 6, namely a first positive arc groove 411 and a first negative arc groove 412, the two arc grooves are respectively located on different quadrants, the angle corresponding to the arc grooves is 90 °, the two arc grooves respectively correspond to the positive electrode and the negative electrode of the solar cell panel, the first positive arc groove 411 is connected to a first positive wire 413, all the first positive wires 413 are collected and then connected to a first positive wire outgoing copper sheet 414, the positive wire outgoing copper sheet 414 is connected to a first positive copper bar 416 through a copper elastic sheet 415, and similarly the first negative arc groove 412 is connected to a first negative wire 417, all the first negative electrode wires 417 are connected with the negative electrode wires to be connected with the copper sheets 418 after being collected, the negative electrode wires are connected with the copper sheets 418 to be connected with the first negative electrode copper strips 419 through the copper elastic sheets 415, and the first positive electrode copper strips 416 and the first negative electrode copper strips 419 are arranged at the left end and the right end of the upper end supporting edge strip 21 of the window.

As shown in fig. 5, the lower end bus bar 42 is mainly used for supplying power to the LED lamp beads 62 on the PCB 6, the lower end bus bar 42 is also provided with an arc groove (fig. 5) with a center as a center post, the central support groove 43 is used for mounting the center post 61 of the PCB 6, each PCB corresponds to two arc grooves, namely a second positive arc groove 421 and a second negative arc groove 422, the second positive arc groove 421 is connected to the LED lamp bead bus bar positive copper groove 424 through a second positive wire 423, the LED lamp bead bus bar positive copper groove 424 is connected to a second positive copper bar 425, similarly, the second negative arc groove 422 is connected to a second negative wire 426, all the second negative wires 426 are connected to the LED lamp bead bus bar negative copper groove 427, the LED lamp bead bus bar negative copper groove 427 is connected to the second negative copper bar 428, the second positive arc groove 421 and the second negative arc groove 422 are respectively connected to the positive and the negative of the external power supply, second positive electrode copper bars 425 and second negative electrode copper bars 428 are disposed at the left and right ends of the window lower end support edge 22.

The upper 21 and lower 22 support edge of the window provides sealing on the one hand and fixing for the busbars on the other hand. Cylindrical copper bars (an anode copper bar and a cathode copper bar) are respectively arranged on the upper end supporting edge 21 and the lower end supporting edge 22, the diameter of each copper bar is 2 mm, two cylindrical copper bars are respectively arranged on the upper end supporting edge 21 and the lower end supporting edge 22, and the cylindrical copper bars are respectively arranged at the left end and the right end of the supporting edge. Fig. 7 shows that, a groove (LED lamp bead busbar negative electrode copper groove 427) is provided at a corresponding position on the busbar, the inner diameter of the groove is greater than 2 mm, the two are guaranteed to be in positive tolerance, and a cylindrical copper bar (second negative electrode copper bar 428) inserted into the supporting edge strip is correspondingly ensured, so that the busbar is not shaken left and right, front and back.

As shown in fig. 4, a copper elastic sheet 415 is respectively disposed on the left side and the right side of the upper end supporting edge 21, one end of the copper elastic sheet 415 is fixed on the upper end supporting edge 21, a copper binding post (referred to as a copper bar, which is divided into a first positive copper bar 416 and a first negative copper bar 419) is embedded in the upper end supporting edge 21, and the other end of the copper binding post is connected to an external power system; the other end of the copper spring 415 and the solar copper wire outgoing part on the upper end bus bar 41 are tightly pressed, so that the normal output and input of current are ensured.

As shown in fig. 5, the left and right ends of the lower supporting edge 22 are provided with copper protruding cylinders (a second positive copper bar 425 and a second negative copper bar 428), and the lower bus bar 42 is provided with an LED lamp bead bus bar positive copper groove 424, an LED lamp bead bus bar negative copper groove 427, and the protruding cylinders on the lower supporting edge 22 are in close contact with each other to supply power to the LED lamp beads.

After the upper and lower end busbars, the upper and lower end supporting edgings, the left and right side edgings, the curtain rolling device and the left and right side edgings are installed, the glass is bonded by a high-strength high-air-tightness composite adhesive, and dried inert gas is injected into a glass interlayer to prevent internal copper or iron parts from being oxidized.

The utility model discloses a vertical PCB board of arranging the grid form between double glazing, through PCB board pivoted angle, how much the sunshine of regulation through the window, the positive and negative of PCB board sets up solar cell panel and LED lamp pearl respectively simultaneously, and solar cell panel can generate electricity, provides the power consumption of part indoor lighting through solar cell panel, guarantees indoor light demand.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A lighting window that can generate electricity characterized in that: comprises an inner double-layer glass (1) and an outer double-layer glass (1), a supporting edge strip (2), a curtain rolling device (3), a bus bar (4) and a window outer frame (5), the four sides of the inner and outer double-layer glass (1) are provided with supporting edgings (2), the supporting edgings (2) are arranged at the inner sides of the four sides of the outer window frame (5), bus bars (4) at the upper and lower ends of the window are fixed on the supporting edgings (2) at the upper and lower ends of the window, curtain rolling devices (3) are fixed at the inner sides of the supporting edgings (2) at the left and right sides, a grid-shaped PCB (6) is vertically arranged between the inner and outer double-layer glass (1), the center of the PCB (6) is provided with a central upright post (61), the roller shutter (3) is provided with a stepping motor, the roller shutter (3) is connected with each PCB (6) through a pull rope (31), the roller shutter (3) drives each PCB (6) to rotate around the central upright post (61) through the pull rope (31).

2. A luminous window that can generate electricity according to claim 1, characterized in that: the upper and lower end of PCB board (6) all is provided with anodal copper cylinder (64) and negative pole copper cylinder (65), PCB board (6) are provided with LED lamp pearl (62) towards indoor one side, PCB board (6) are provided with solar cell panel (63) towards outdoor one side.

3. A luminous window that can generate electricity according to claim 1, characterized in that: an upper end busbar (41) and a lower end busbar (42) are respectively arranged at the upper end part and the lower end part of the window, and the upper end busbar (41) and the lower end busbar (42) are respectively fixed on an upper end supporting edge strip (21) and a lower end supporting edge strip (22) of the window.

4. A power generating illuminated window as claimed in claim 3, wherein: be provided with first anodal arc recess (411) and first negative pole arc recess (412) on upper end busbar (41), first anodal arc recess (411) are connected with first positive pole line (413), and all first positive pole lines (413) collect the back and connect positive pole line to connect out copper sheet (414), positive pole line connects out copper sheet (414) and is connected with first anodal copper bar (416) through copper shell fragment (415), and first negative pole arc recess (412) is connected with first negative pole line (417) like this, and all first negative pole lines (417) collect the back and connect out copper sheet (418) to connect the negative pole line, the negative pole line connects out copper sheet (418) and is connected with first negative pole copper bar (419) through copper shell fragment (415), first anodal copper bar (416), first negative pole copper bar (419) set up the left and right sides both ends that support strake (21) in the window upper end.

5. A power generating illuminated window as claimed in claim 3, wherein: a second positive electrode arc-shaped groove (421) and a second negative electrode arc-shaped groove (422) are arranged on the lower end bus bar (42), the second positive arc-shaped grooves (421) are converged by a second positive wire (423) and then connected with the positive copper grooves (424) of the LED lamp bead busbar, the LED lamp bead bus bar positive copper groove (424) is connected with a second positive copper bar (425), similarly, a second negative arc groove (422) is connected with a second negative wire (426), all the second negative wires (426) are connected with the LED lamp bead bus bar negative copper groove (427) after being collected, the LED lamp bead busbar negative copper groove (427) is connected with a second negative copper bar (428), the second positive electrode arc-shaped groove (421) and the second negative electrode arc-shaped groove (422) are respectively connected with the positive electrode and the negative electrode of an external power supply, the second anode copper strip (425) and the second cathode copper strip (428) are arranged at the left end and the right end of the lower end supporting edge strip (22) of the window.

6. A power generating illuminated window as claimed in claim 3, wherein: the left side and the right side of the upper end supporting edge strip (21) are respectively provided with a copper elastic sheet (415), one end of each copper elastic sheet (415) is fixed on the upper end supporting edge strip (21), a first positive copper strip (416) and a first negative copper strip (419) are embedded in the upper end supporting edge strip (21), and the other ends of the first positive copper strip (416) and the first negative copper strip (419) are connected into an external power system; the other end of the copper elastic sheet (415) is tightly pressed with the solar copper wire outgoing part on the upper end bus bar (41).

7. A power generating illuminated window as claimed in claim 3, wherein: both ends set up second anodal copper bar (425) and second negative pole copper bar (428) about lower extreme support strake (22), lower extreme busbar (42) then set up anodal copper recess of LED lamp pearl busbar (424), LED lamp pearl busbar negative pole copper recess (427) and second anodal copper bar (425) and second negative pole copper bar (428) in close contact with on lower extreme support strake (22).

Images