RU1400399C - Portable solar battery cell - Google Patents

Abstract

FIELD: optoelectronics. SUBSTANCE: mechanical linkage of battery panels is combined with electrical connection which is realized by means of conducting levers connected with axles on panels. The axles at one side of panels are connected to positive pole of photoelectric cells, and to negative pole at the other side. For higher reliability of contact the connection comprises flexible members. EFFECT: higher reliability and shorter time for bringing the battery to working position. 3 dwg

Description

 The invention relates to solar energy and can be used to power electronic equipment and recharge various batteries.

 The aim of the invention is to increase the reliability of the battery and reduce time brought it into working condition.

 In FIG. 1 shows a battery in operational condition; in FIG. 2 - battery panel; in FIG. 3 - element for connecting the panel to the lever.

 A portable solar battery of five elements (Fig. 1) is shown at the time of bringing it into working condition by sliding the panels 1 with levers 2 in the direction of the arrows. The number of panels may vary depending on the required battery power.

 Each panel is made with axes 3-5 (Fig. 2), serving simultaneously as positive electrical leads, and axes 6-8, serving simultaneously as negative leads of the panel. The panel 1 is connected to the levers 2 (Fig. 3) by means of a retaining ring 9, an elastic element 10, a sleeve 11, an electric bus 12, closed by an insulating cover 13.

 Each panel 1 is mounted on a plastic substrate 14, which is reinforced with axes 3-5, interconnected by an electrically conductive bus 15, and axles 6-8, connected by a bus 16. Each axis is provided with a shoulder 17, which abuts the sharp edge of the elastic element 10. Photo converters 18 each panel together with axes 3-5 and 6-8 form an electric circuit, the positive terminals of which are axes 3-5, and the negative ones are axes 6-8.

 PRI me R. When assembling the battery, an elastic element 10 is installed on each axis 3-8, then the panels are connected by levers 2, and the levers 2 are fixed on the axes 3-8 with the help of locking rings 9. The elastic element 10 is in this pressed state, providing guaranteed electrical contact between the lever 2 and the shoulder 17. After installing the levers 2 they are closed with plastic covers 13. The extreme axes are the same electrical contacts 19 and 20 of the solar battery. On the opposite side of the battery, electrical contacts 21, 22 of the opposite sign are likewise arranged.

 The solar battery works as follows.

 In the compact position, the photoactive area of the battery does not exceed the area of a single panel, the thickness of the battery is equal to the sum of the thicknesses of the individual panels. The power of the solar battery is equal to the power of one panel. To deploy the battery to its operating position, pull the upper and lower panels in different directions. In this case, the panels are moved apart on the levers 2 by an "accordion", and in the extreme extended position the photoactive area of the battery is equal to the sum of the photoactive areas of the individual panels. The consumer of electrical energy is connected to contacts 19, 21 or 20, 22.

 The technical advantages of the solar battery are that the combination of the electrical and mechanical connection of the panels ensures a quick bringing the battery to working condition, and the duplication of electrical sliding contacts increases the reliability of interpanel connections, and hence the solar battery as a whole.

Claims (1)

 PORTABLE SUNNY BATTERY, containing photoelectric panels electrically and mechanically interconnected, characterized in that, in order to increase the reliability of the battery and reduce the time to bring it into working condition, the mechanical connection of the panels is made using conductive levers closed by electrical insulating covers, each of which is equipped with bushings through which, through elastic elements, the conductive levers are connected to axes located on the photovoltaic panels, and the axes with one the sides of the panels are connected to the positive electrical terminals of the panels, and on the opposite side, to the negative terminals of the panels.

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