DE2455393A1 - Battery charging circuit for camera - has charge-state monitor and has constant voltage regulator connected to transformer in housing - Google Patents

Abstract

The battery charging circuit, for a camera, has a monitor and regulator (11, 20, 26) inside the housing (1) and connected to the transformer (3). The monitor continuously monitors the charge state of the battery and the regulator controls the charging voltage. The supply and regulator are constructed from a single integrated amplifier circuit forming a voltage regulator (11). A potentiometer (20) sets the constant voltage of the regulator voltage. The circuit has an external terminal (18) for connecting to a flash light. The housing has a horizontal plate between the transformer and the loudspeaker fixed to its side wall.

Description

Charger for batteries of electrically driven cameras The invention relates to a charger for batteries of electrically driven Cameras in which the batteries and an electric drive motor, e.g. B. to Tensioning the shutter mechanism and for the film transport, arranged in the camera housing with a mains voltage transformer.

The electric motors of such, preferably by professional photographers used high-performance cameras are accumulators fed, either directly in the camera housing or in one to be attached to the housing Box are housed. The motors are used for. B. as a drive for film transport, for tensioning the locking mechanism and the shutter mechanism. The supply by high-performance accumulators of small dimensions, e.g. B. nickel-cadmium batteries, has the advantage of a extensive independence of the photographer from network connections. Because the capacity However, the accumulators are limited and their voltage as the state of charge decreases gradually decreases, is enough after a certain number of shots, e.g. B. for series recordings, the energy given off by the accumulators no longer consumes that of the electric motor driven mechanisms of the camera to operate at a constant speed or to tension. Because of this slower activity, the rhythm of the photographer becomes disturbed, and it can be with larger series of pictures shot in quick succession image overlaps occur when the shutter mechanism is activated again, before it is fully excited.

Chargers are already known for charging the accumulators, which supply the charging current via appropriately designed network transformers. Special Disadvantages of these chargers, however, are that the accumulators for charging usually removed from the camera and inserted into the charger, and that the The state of charge or the charging time cannot be measured.

As a result, there is a need to check the chargers after certain Charging times usually after several hours, to be switched off manually. Will If the set charging times are not observed, the expensive ones will be destroyed Nickel-cadmium batteries.

Completely or almost empty batteries can be used with the known chargers cannot be regenerated again.

The object of the invention is to provide a charger of the type mentioned at the beginning Kind of creating a supply of the electric motor with its full rated current ensures at all times regardless of the state of charge of the batteries.

According to the invention, this object is achieved by an on the transformer connected measuring and control device, die'den charge status of the accumulators continuously recorded and carried out by fixed value regulation of the charging voltage and the at Actuation of the trigger feeds the electric motor with its full rated current guaranteed at maximum voltage even with partially discharged batteries.

The charger according to the invention ensures constant operational readiness the camera under optimal conditions and a constant speed the mechanisms driven by the electric motor achieved so that with constant Rhythm can be photographed and images overlap due to decreasing winding speed the locking mechanism can be avoided.

The risk of overloading the existing with conventional devices Accumulators are eliminated. Another advantage is the safety for the Photographers that the batteries are always fully charged when he z. B. for outdoor shots, trips od.

Like. Decreases from the charger. In addition, it can also be fully emptied Accumulators. recharged and regenerated what until now not possible. When recording in the studio, you can also take photos without accumulators because the electric motor is then completely supplied by the charger. Since the accumulators are continuously recharged, self-discharge will occur compensated, so that the camera is always ready for operation even if the camera has not been used for a long period of time is guaranteed without the risk of overloading.

In an advantageous embodiment of the charger according to the invention there is a receptacle for spare batteries in the device, which are charged in the device and feed the electric motor via a cable, in this case reducing of the camera weight, no further accumulators have to be arranged in the camera housing have to. According to a development of the invention, the device can also have a Variable resistor coupled amplifier for a microphone or a loudspeaker who follow the photographer's instructions e.g. B. od to lighting technicians. Like. About a loudspeaker mounted in the device or amplified by another loudspeaker. These additional Aggregates can also be fed from the reserve accumulators.

In the following an embodiment of the invention is based on the Drawing described in detail. 1 shows a plan view of the device with the cover removed, FIG. 2 shows the overall circuit diagram of the charger according to the invention.

The one shown in Fig. 1 in plan view without an upper cover plate The charger has a housing 1 in which a horizontal partition 2 is attached. On the side next to the partition wall there is a transformer 3 with a on the one hand Mains connection 4 and on the other hand a loudspeaker 5 with a knurled nut 7 adjustable rheostat 6. On the top of the partition 2 are brackets 8, 8 'for an LF amplifier module 9 for the loudspeaker, which is fastened to a plug-in card 5 and further brackets 10, 10 'for two also as integrated amplifiers executed voltage regulator 11 is arranged. At the bottom of the divider plate is a rectifier 12 with a capacitor 13 connected upstream is attached. Depending on the intended use the partition plate 2 can also have holders 14 for replacement batteries 15, 16, electrically connected to the amplifier 9 of the loudspeaker, which is designed as an LF module 5 and can be connected to the voltage regulators 11. To connect one or several cameras are a corresponding number of connectors in a side wall 17 attached. Additional loudspeakers can be connected via further connection plugs 18 connected to the device. A further connector 19 can be a Synchro cable of a flash unit via the charger with the shutter release of the camera be coupled. All connection lines are expediently in a single cable summarized, so that the various additional units such as loudspeakers or flash units switched on or off at any time without the need to lay further cables can be.

For deriving the in each case a transistor 20 of the control devices 11 generated heat are heat conducting plates 21 made of metal with the Transistors firmly connected, the cooling fins at their ends to improve heat dissipation 22 own.

According to the circuit diagram shown schematically in Fig. 2 is the over the connections 4 can be connected to the mains transformer 3 of the diodes in the usual way Way formed rectifier 12 and the capacitor 13 connected downstream. Parallel A control device 11 is connected to the capacitor 13 to the rectifier outputs, one output 22 of which to the grid 23 of the transistor 20 and the other output 25 goes to a potentiometer 26 connected to lines 27, 28, to which also another adjustment capacitor 29 is connected. These lines 27, 28 lead to the connection contacts of two multipole plugs 30, 31.

The amplifier is connected to the rectifier outputs via a resistor 32 9 connected to amplify the impulses of a microphone, not shown, controlled in the usual way by the variable resistor 6 for setting the Volume in the loudspeaker 5 or in external loudspeakers is controlled.

The charger according to the invention works as follows: The voltage regulator 11 controls the output voltage of the device to one via the transistor 23, 24 constant value that is slightly above the nominal voltage of the accumulators and which is roughly equal to the nominal voltage of the electric motor. Will put a camera on the device is connected, the batteries of which are partially or fully discharged, it is charged with the maximum nominal voltage and one The current determined by the respective state of charge of the accumulators, the current when fully charged Accumulators except for a minimum value that just compensates for the self-discharge going back. While, accordingly, the charging voltage in known chargers is far discharged accumulators is low and gradually increases with the state of charge, In the subject matter of the invention, the voltage is kept constant regardless of the state of charge. Only then does it become possible, in addition to charging the accumulators also to feed the electric motor via the device. The well-known and as an integrated switching group available voltage regulator 11 controls the transistor so that when fully charged Accumulators the "residual" charging current is just sufficient to compensate for the self-discharge, however, overcharging and thus destruction of the batteries is prevented. The fixed value control the charging voltage also has the effect that batteries that are already fully discharged to be regenerated again with known chargers because of inevitably present voltage drop can no longer be charged.

Claims (6)

Expectations (, Charger for batteries of electrically driven cameras, in which the batteries and an electric drive motor z. B. for tensioning the shutter mechanism and for the film transport are arranged in the camera housing, with a mains voltage transformer arranged in a housing, since d u r c h characterized in that in the housing (1) one connected to the transformer (3) Measuring and regulating device (11, 20, 26) is arranged, which determines the state of charge of the accumulators continuously detected and a fixed value control of the charging voltage makes and the Trigger the electric motor with its regardless of the charge status of the batteries Nominal current applied. 2. Charger according to claim 1, characterized in that the network and control device designed as a monolithically integrated amplifier Voltage regulator (11) and a transistor (23, 24) controlled by this in the charging circuit contains. 3. Charger according to claim 2, characterized in that with the Voltage regulator (11) for presetting the constant voltage a potentiometer (20) is coupled. 4. Charger according to claim 1, characterized by a connection (18) for the synchro-shutter of a flash unit. 5. Charger according to claim 1, characterized by an integrated as Circuit executed amplifier (9) with a variable resistor (6) for a microphone or a loudspeaker. 6. Charger according to claim 1, characterized in that in the housing (1) a horizontal partition plate (2) between the transformer (3) and one on a side wall attached loudspeaker (5) as a holder for the amplifier (9), the voltage regulator (11) and the rectifier (12) is mounted, the brackets (14) for replacement batteries (15, 16).