DE29803536U1 - Mobile station for electrical energy - Google Patents

Description

Mannheim, 26.02.1998 GM 2360.anra Il/bhm

Representative:

Patent Attorney Dipl.-Ing. W.-D. Fischer Sophienstraße 17 D-68165 Mannheim

Applicant:

Ditmar HiId Bgm.-Grünzweig-Str.

D-67063 Ludwigshafen

Mobile station for electrical energy

The invention relates to a mobile station for electrical energy, wherein a rechargeable battery, an inverter and solar modules are electrically connected to one another in a portable housing.

For example, a self-regulating power supply system with a number of junction solar cells connected in series is known, in which an accumulator is connected in parallel to the series connection of the solar cells. The connection and number of solar cells are selected in such a way that overloading of the collector is avoided and in this way to ensure self-regulation that prevents overloading of the collector.

The main disadvantage of this known system is that it cannot be used as a mobile system that can be transported as a simple suitcase device.

The invention is based on the object of providing such a mobile station in which a rechargeable battery and solar modules are combined as main components in a portable suitcase device.

This object is achieved according to the invention in that the solar modules, which can be connected to the station via a plug connection, represent independent components of the housing and can be folded at joints, with brackets being attached to the outside of the housing into which the folded solar modules can be hung.

An advantageous embodiment consists in the provision of holding rails attached to the long side of the housing as brackets.

It is further proposed that the housing has a cover that can be secured by means of a retaining bracket.

It is also advantageous that sockets for alternating and direct current, charging sockets for a charger and the solar modules, transport safety straps, brackets for cable winding and the like are provided on the outside of the bracket.

It is further proposed that collapsible frames are provided for arranging the solar modules, consisting of articulated struts that can be secured by means of a pin lock.

The station, which is equipped with a shoulder strap, retractable telescopic handle and wheels, can be transported by one person due to its dimensions and weight. The device is designed as an emergency power generator for small outputs and is easy to maintain.

The invention is explained in more detail in the following description using an embodiment shown in the drawings.

Show it ,

Fig. 1 is a diagrammatic view of the station,

Fig. 2 a top view of the station with the

Lid,

Fig. 3 a side view of the station,

Fig. 4 a pair of solar modules used,

Fig. 5 the electrical diagram of the station,

Fig. 6 a frame in diagrammatic view for alignment

of the solar modules when folded and

Fig. 7 the frame in question in the erected state.

The station has a box-like housing 26 with a lid 27 that can be opened on both sides. On the hinged lid 27 there are 12 V direct current sockets 2 and a 230 V alternating current socket 1. There is also a digital display 4 for the charge controller. A shoulder strap 20 is provided on the side of the housing. On the side of the housing there are also charging sockets 11 for a charger and charging sockets 24 for solar modules. Additional rechargeable batteries or batteries can be connected in parallel via the charging sockets 11 for the charger. This makes it possible to significantly increase the capacity of the system in the short term. The housing 26 is arranged on rollers 22. A retractable telescopic handle 21 is used for rolling. Furthermore, horizontal and vertical brackets 8 are provided on the outside of the housing 26 on its long sides, into which solar modules 5 (Fig. 4) can be hung.

In the top view according to Fig. 2, the arrangement of the essential components can be seen, namely a rechargeable battery 3, in particular as a nickel-cadmium accumulator with a gel filling, an inverter 25, circuit breakers 16, 17, 18, a thermostat 12 and a fan 13.

As Figure 3 shows, straps 9 and a strap tensioner 10 with a quick-release fastener are provided to secure the modules during transport. The main switch 15 is located on the outside of the housing. Brackets 19 are also provided for cable winding.

As Figure 4 shows, the solar modules 5 are split in the middle and connected by means of joints 7 and can be locked and folded in any position. The connection is made to a plug 6, which can be plugged into one of the charging sockets 24. The solar modules 5 made of stainless steel are very robust and have an output of 10 watts each.

Figures 6 and 7 show a collapsible frame, which is conveniently made of aluminum for weight reasons. This frame is used to optimally align the solar modules 5 by placing these flat parts on it.

The frames consist of a base part 31, on which a support part 30 with supports 33 is arranged so that it can pivot on a joint 28. A support strut 32 is also attached to the support part on a joint 28, whereby the end of the support strut 32 can be adjustably secured to the base part 31 on a pin lock 29. Two such frames are hung on the lower part, on the left and right of the device.

The mobile station is used to draw 230 V AC voltage using the inverter 25 or to draw 12 V DC voltage, whereby the battery 3 is recharged via the connected solar modules 5. If the battery 3 is deeply discharged when power is drawn via the 230 V socket 1 or via the two 12 V DC sockets 2, the system is switched off via the charge controller 4 to protect the battery 3. For transport, the solar modules 5 are folded together at their joints 7 and one component is hung on the support rails 8 on each side. The transport is secured using the straps 9 with the strap tensioners 10.

Access to the components arranged inside the housing 26 is achieved by opening the retaining brackets 23 of the cover parts 27.

If the temperature inside the device rises due to the energy conversion, the thermostat 12 switches on the fan 13, which dissipates the heat to the outside via the ventilation grille 14. The system can be switched off completely using the main switch 15, except for the measuring display on the charge controller 4.

List of reference symbols

1 socket 230 V (alternating current)

2 socket 12 V (DC)

3 Battery - Nickel-cadmium with gel filling

4 charge controllers with digital display

5 solar modules made of stainless steel (3 mm thick)

6 connectors for solar modules

7 Joint on the solar module for adjusting and folding

8 holding rails for hanging the folded modules

9 straps to secure the modules during transport

10 strap tensioners for tensioning (quick release)

11 Charging socket for external charger

12 Thermostat

13 Fan

14 Ventilation grilles

15 Main switch

16 Circuit breaker 230 V

17 Circuit breaker 12 V

18 Circuit breaker 12 V

19 Bracket for winding the solar cable

20 Shoulder strap

21 Telescopic handle (retractable)

22 wheels - 2 wheels with one axle

23 Holding bracket for opening and closing the station

24 charging sockets for charging via solar modules

25 inverters

26 Housing

27 Lid

28 joint 29 Pin locking 30 Support part 31 Bottom part 32 Support strut 33 Edition

Claims (5)

Protection claims 1) Mobile station for electrical energy, wherein a rechargeable battery (3), an inverter (25) and solar modules (5) are electrically connected to one another in a transportable housing (26), characterized in that the solar modules (5) which can be connected to the station via a plug connection (6) represent independent components of the housing (26) and can be folded at joints (7), wherein holders (8) are attached to the outside of the housing (26) into which the folded solar modules (5) can be hung. 2) Mobile station according to claim 1, characterized in that holding rails (8) attached laterally to the long side of the housing (26) are provided as holders. 3) Mobile station according to claim 1 and 2, characterized in that the housing (26) has a cover (27) to be secured by means of a retaining bracket (23). 4) Mobile station according to claims 1 to 3, characterized in that sockets (1, 2) for alternating and direct current, charging sockets (11, 24) for a charging device and the solar modules (5), transport securing straps (9), brackets (19) for cable winding and the like are provided on the outside of the housing (26). 5) Mobile station according to one of claims 1 to 4, characterized in that for arranging the solar modules (5) collapsible frames are provided, consisting of articulated connected struts (30, 31, 32) which can be locked by means of a pin lock (29).