DE10336953A1 - Overload protection unit for a fan motor especially in a motor vehicle has device to detect a blockage or operational fault in the motor - Google Patents

Abstract

An overload protection unit for a fan motor (10), especially in a motor vehicle, comprises a device to detect a blockage or operational difficulty in the motor. Preferably the motor current is determined and compared (34) with a given maximum threshold value in a control circuit (12).

Description

The The invention relates to a device for protecting a fan motor from overload, preferably a blower motor in a motor vehicle, according to the preamble of claim 1.

State of technology

From the DE 101 21 766 A1 a drive unit for a blower in motor vehicles is known, which has a driven on a DC power supply, electric fan motor and a speed device for controlling the speed of the fan motor by changing the voltage applied to the fan motor operating voltage. For the purpose of an economically feasible, stepwise adjustment of the engine speed, the speed device comprises a plurality of resistors and a plurality of semiconductor switches for selectively connecting the blower motor in series with at least one of the resistors.

A Blockage and / or binding the blower motor However, it can not always be detected, causing an inadmissible overheating the blower motor and its leads come in the event of a sustained load to a destruction the blower motor would lead.

Advantages of invention

The Invention has the advantage that a device for protection a blower motor from overload, preferably a blower motor in a motor vehicle, is presented, the device Means for detecting a blockage and / or binding the blower motor having. In this way, a destruction of the fan motor be effectively prevented.

In an advantageous embodiment are in the device means provided for detecting a motor current of the fan motor. These Means can For example, include a current measuring resistor. Furthermore, the device contains a drive circuit having a storage means. In this Storage means may be a maximum allowable current of the fan motor, for example, by a service technician of a specialist workshop, by the manufacturer of the blower motor or the like, are stored. In the drive circuit Then there is a comparison of the detected motor current with the stored maximum current, so that the drive circuit blocking and / or the binding the blower motor detects as soon as the detected motor current exceeds the stored maximum current.

In In a further embodiment, the invention provides an advantage Way means for detecting an engine speed of the fan motor in front. In the memory means of the drive circuit is in this case a permitted minimum speed of the fan motor stored, and There is a comparison of the detected engine speed with the stored Minimum speed. The drive circuit is capable of blocking and / or binding the blower motor as soon as the detected engine speed the stored Minimum speed falls below.

There the permitted maximum current and / or the allowed minimum speed also parameters such as the ambient temperature of the fan motor and / or the supply voltage of the fan motor depends sees the invention in an advantageous embodiment means for detecting the ambient temperature and / or the supply voltage the blower motor before, so that the drive circuit the stored maximum current and / or the stored minimum speed to the detected ambient temperature and / or the detected supply voltage adapts.

Becomes a blockage and / or stiffness of the fan motor recognized, it is advantageous to turn it on again the blower motor only in one opposite a maximum level lower level possible. This way you can the life of the blower motor clearly increased become.

Occasionally It can happen that a blocking and / or binding the blower motor is not clearly recognized. This is e.g. then the case, though the blocking and / or the stiffness of the fan motor only for a short period of time. In this case it is envisaged that the blower motor briefly, i. For a few seconds, with the maximum possible power controllable is to by detecting the motor current and / or the speed the blower motor that Blocking and / or binding the blower motor clearly recognizable. In this way, an error detection takes effect avoided.

In order to a fault is not only detected but also a protection of the blower motor guaranteed is in the case of a detected blocking and / or binding the blower motor an error signal generated by the drive circuit and via a Transfer interface to a vehicle-mounted monitoring computer. In the monitoring computer can then generate a warning signal and to an optical and / or passed acoustic display device become.

Finally, vorgese in an advantageous manner hen that the drive circuit in the case of a detected blocking and / or stiffness of the fan motor, this disabled automatically. This ensures the fastest possible protection of the fan motor, since in this case the drive circuit operates independently and is not dependent on a parent, vehicle-mounted control unit.

drawing

The Invention will be described below with reference to the accompanying drawings by the in The embodiment shown in the figure explained in more detail. It shows:

1 a block diagram of a possible embodiment of an inventive device for protecting a fan motor from overload.

In 1 is the device according to the invention for the protection of a fan motor 10 shown. The device has a drive circuit 12 for controlling the fan motor 10 with the help of a switching means 14 on, wherein the switching means 14 in series with the blower motor 10 is switched and can be embodied for example as a relay, as a thyristor, transistor, MOSFET or the like. Both the drive circuit 14 as well as the blower motor 10 be via a battery, not shown, of a motor vehicle with the reference potential 16 (eg mass) and the supply potential 18 (eg 12 volts) supplied with a DC voltage.

Furthermore, the device contains a means 20 for detecting a motor current of the fan motor 10 in series between the fan motor 10 and the switching means 14 is arranged. This means may be, for example, a low-impedance current measuring resistor. Now the blower motor 10 through the drive circuit 12 supplied with the DC voltage, so flows with closed switching means 14 via the current measuring resistor 20 a motor current, which is evaluated in the drive circuit. For this purpose, the drive circuit measures the resulting from the flowing motor current voltage drop across the current measuring resistor at the nodes 22 and 24 , If there is a blockage and / or sluggishness of the fan motor, the motor current increases sharply, which also leads to an increase in the voltage drop across the current measuring resistor 20 at the nodes 22 and 24 leads. This voltage drop will be within the drive circuit 12 again converted into an equivalent motor current value.

The drive circuit 12 contains a storage means 26 , in which a permitted maximum current is stored. If a comparison of the measured motor current with the stored maximum current shows that the motor current exceeds the stored maximum current, then the drive circuit will supply the current 12 a blocking and / or a stiffness of the fan motor 10 detected and generates an error signal. This error signal is then transmitted via a unidirectionally or bidirectionally operating interface 30 the drive circuit 12 to a vehicle-mounted monitoring computer 32 , For example, to the on-board computer of the motor vehicle transmitted. At the same time, the drive circuit 12 in the case of a recognized blockage and / or stiffness of the fan motor 10 but also the blower motor 10 by opening the switching means 14 disable automatically.

In a possible embodiment shows 1 a means 34 for detecting a rotational speed of the fan motor 10 , which has a dashed connection 36 with the drive circuit 12 connected is. This agent 34 may be a speed sensor, the alternative or in addition to the current sense resistor 20 is used. With the help of the speed sensor is now the speed of the fan motor 10 captured and over the connection 36 to the drive circuit 12 to hand over. In the storage means 26 the drive circuit 12 Now is a permitted minimum speed of the fan motor stored. If the value for the detected rotational speed is below the stored minimum rotational speed, there is a blockage and / or sluggishness of the fan motor 10 in front. This detected error is then from the drive circuit 12 over the interface 30 to the vehicle-side monitoring computer 32 to hand over. At the same time, in turn, the drive circuit 12 the blower motor 10 by opening the switching means 14 disable automatically.

The maximum current or the minimum speed of the fan motor 10 Among other things, this is due to the ambient temperature of the blower motor 10 or dependent on its supply voltage. To detect the ambient temperature, the device looks in 1 a temperature sensor 38 before, a temperature signal to the drive circuit 12 passes. Alternatively or in addition to the temperature sensor 38 is a means 40 for detecting the supply voltage in the drive circuit 12 integrated. Depending on the detected ambient temperature and / or the detected supply voltage now the stored maximum current and / or the stored minimum speed can be adjusted, in case of an increased ambient temperature to reduce the maximum current and to increase the minimum speed. The same applies to a broken down by external influences supply voltage.

Is a detection of the blocking and / or the stiffness of the fan motor 10 not clearly possible, so the drive circuit the blower motor 10 briefly with the maximum possible power, eg by setting the stored maximum current, drive. This drive period usually lasts no longer than a few seconds, so that for a short time a re-detection of the motor current and / or the speed of the fan motor takes place according to the procedure described above. If the detected motor current exceeds the maximum current, there is clearly a blockage and / or stiffness of the fan motor 10 in front.

Furthermore, the drive circuit allows 12 in the case of a recognized blockage and / or stiffness of the fan motor 10 switching on the fan motor 10 only in one compared to a maximum level lower level.

Claims (10)

Device for protecting a fan motor ( 10 ) against overload, preferably a blower motor ( 10 ) in a motor vehicle, characterized in that the device comprises means ( 12 . 20 . 26 . 34 ) for detecting a blockage and / or a stiffness of the fan motor ( 10 ) having. Device according to claim 1, characterized in that means ( 20 ) for detecting a motor current of the fan motor ( 10 ) are provided that in a drive circuit ( 12 ) the device a comparison of the detected motor current with a in a storage means ( 26 ) of the drive circuit ( 12 ) stored maximum current of the blower motor ( 10 ), and that the drive circuit ( 12 ) the blocking and / or the stiffness of the blower motor ( 10 ) detects as soon as the detected motor current exceeds the stored maximum current. Device according to claim 2, characterized in that the means ( 20 ) for detecting the motor current of the fan motor ( 10 ) comprise a current sense resistor. Device according to claim 1, characterized in that means ( 34 ) for detecting a rotational speed of the fan motor ( 10 ) are provided that in a drive circuit ( 12 ) the device a comparison of the detected engine speed with a previously in a storage means ( 26 ) of the drive circuit ( 12 ) stored minimum speed of the fan motor ( 10 ), and that the drive circuit ( 12 ) the blocking and / or the stiffness of the blower motor ( 10 ) detects as soon as the detected engine speed falls below the stored minimum speed. Device according to one of claims 2 or 4, characterized in that the drive circuit ( 12 ) Medium ( 38 ) for detecting an ambient temperature of the fan motor ( 10 ) and that the drive circuit ( 12 ) the stored maximum current and / or the stored minimum speed of the fan motor ( 10 ) adjusts to the detected ambient temperature. Device according to one of claims 2 or 3, characterized in that the drive circuit ( 12 ) Medium ( 40 ) for detecting a supply voltage of the fan motor ( 10 ) and that the drive circuit ( 12 ) the stored maximum current and / or the stored minimum speed of the fan motor ( 10 ) adapts to the detected supply voltage. Device according to one of claims 1 to 4, characterized in that in the case of a recognized blocking and / or stiffness of the fan motor ( 10 ) switching on the blower motor ( 10 ) is only possible in one compared to a maximum level lower level. Device according to one of the preceding claims, characterized in that in the case of a not clearly recognized blocking and / or stiffness of the fan motor ( 10 ), the blower motor ( 10 ) can be controlled for a short time with the maximum possible power in order to detect the motor current and / or the speed of the fan motor ( 10 ) the blocking and / or the stiffness of the blower motor ( 10 ) clearly recognizable. Device according to one of the preceding claims, characterized in that in the case of a recognized blocking and / or stiffness of the fan motor ( 10 ) an error signal by the drive circuit ( 12 ) and via an interface ( 30 ) to a monitoring computer ( 32 ) is transferable. Device according to one of the preceding claims, characterized in that in the case of a recognized blocking and / or stiffness of the fan motor ( 10 ) the blower motor ( 10 ) by the drive circuit ( 12 ) via a switching means ( 14 ) is independently deactivated.