DE3318784C2 - Circuit arrangement for controlling a fan motor in printer devices - Google Patents

Abstract

The invention relates to a circuit arrangement for controlling a fan motor in printer devices; to reduce the noise generated by the fan in a printer, the clock frequency of a clock generator 1 provided for driving the fan motor is controlled as a function of the internal temperature of the device; for this purpose, a PTC thermistor 8 is provided in the feedback circuit 5 of the clock generator, which regulates the clock frequency of the clock generator 1 between a lower value at room temperature and a maximum value determined by the highest permissible internal temperature of the device.

Description

The invention relates to a circuit arrangement according to the preamble of claim 1.

For printer devices that are used within a wide temperature range, it is to be avoided Inadmissibly high temperatures inside the device are generally known to generate a flow of cooling air. For this purpose, a fan is provided that is driven by a fan motor. Usually the Fan motor is also switched on when the printer is switched on, possibly only at the beginning of the actual Printing process (e.g. JP-OS 56-72,985). The device-internal fan device is usually on constant Speed is set, taking into account component limits to the maximum permissible device-internal Temperature is adapted. However, this is associated with the development of noise, which is caused both by the Fan motor itself, as well as caused by the air flow inside the device. This relatively high Noise level is perceived as annoying, especially for use in office machines with printers especially low printer noise.

The object of the invention is, with simple means, the noise development of a fan device for Reduce printer. In particular, it is the object of the invention to reduce noise without expensive to achieve additional sound-absorbing measures.

This object is achieved by the features specified in the characterizing part of claim 1 solved.

The associated advantage is essentially that the printer can operate at internal temperatures works in the range of room temperature without any noticeable noise, and that a clearly perceptible noise development only in the relatively rare cases of high ambient temperature and thus a high internal temperature occurs.

In an embodiment of the invention, the temperature-dependent control of the clock frequency of the clock generator

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65 is achieved by a resistor with positive temperature coefficients in the feedback circuit of the clock generator. The associated circuit complexity is extremely low.

Further details of the invention are shown below with reference to one in the drawing Embodiment explained

The exemplary embodiment is based on a circuit arrangement known per se for controlling a fan motor, which consists of a clock generator 1 and an inverter 2 connected downstream thereof, via which the phase signals for a fan motor, not shown here, are output. The clock 1 consists of a first voltage divider with the resistors 3 and 4, an operational amplifier 10, a timing circuit with the resistor 6 and the capacitor 7, a feedback circuit that has the resistor 5 and an output divider with the resistors 9 and 10. The clock frequency such a clock is determined by the dimensioning of the time circuit 6, 7 and the resistors 3, 4 and 5. The clock signals of a certain frequency emitted at the output of the clock generator 1 are fed to the inverter 2. This consists of the resistors 13 and 14, as well as 17 to 20 and the transistors 16, 21 and 13, 22. The inverter 2 works in push-pull mode. At the output of the inverter 2, the phase signals 24 and 25 and, via a phase shift capacitor 23, the third phase signal 26 for controlling the fan motor are available.

The temperature-dependent control is achieved by a resistor 8 with a positive temperature coefficient (PTC thermistor) arranged in the feedback circuit of the clock generator 1. The temperature-dependent value of the resistor 8 influences the clock frequency of the clock generator 1 in such a way that it has a lower value at normal room temperature. This means that the speed of the fan motor and also the speed of the fan are low even at room temperature. If the temperature rises, the clock frequency of the clock and thus also the speed of the fan motor increases and thus ensures the required cooling. This case occurs essentially at high ambient temperatures. A typical example of this arises from the frequent requirement that the printer must still be fully functional even at an ambient temperature of 50 ⁰ C, ie at a device temperature of about 6O ⁰ C to 70 ⁰ C. Such applications are not very common, however, so that the development of noise associated therewith is limited to the relatively short duration of the high load. In addition, these cases will usually be limited to the use of the printer as an output device in rooms in which no operators are normally active.

By connecting a further resistor 9 in parallel to the temperature-dependent resistor 8 a shift in the characteristic curve of the temperature-dependent resistor 8 is achieved. This is an improvement connected to the setting options.

Because the fan motor and thus also the fan itself is only fully loaded at the highest permissible temperatures otherwise works with reduced power consumption and reduced speed, will also the service life of such devices is increased

1 sheet of drawings

Claims (1)

Patent claims: 1.Circuit arrangement for controlling a fan motor in printer equipment in office technology, with a clock generator and with an inverter to generate the phase signals for the fan motor, characterized in that the clock frequency of the clock generator (1) is temperature-dependent between a lower value at an internal device temperature corresponding to the room temperature and an upper value can be controlled at the maximum permissible internal temperature Z circuit arrangement according to claim 1, characterized in that in the feedback circuit (5) of the clock generator (t) a resistor (8) with positive temperature coefficients is arranged, that the temperature-dependent clock frequency emitted at the output of the clock generator is in push-pull operation working inverter (2) controls, at whose outputs the phase-shifted signals (24, 25, 26) are available to control the fan motor. 25th