DE10004473A1 - Air flow detector, has signal transducer that generates an electrical signal indicating the flow of air when the impeller rotates due to air coming from a ventilator - Google Patents

Abstract

A signal transducer (1.8) generates an electrical signal indicating the flow of air when the impeller (1.5) rotates due to air coming from a ventilator (2).

Description

The invention relates to a device for detecting a flow in an air flow path generated in particular by a fan.

Such a device for detecting a flow is e.g. B. in connection used with a fan or fan of a cooling device, z. B. a change in temperature of a temperature arranged in the flow path sensors is used to evaluate the flow. Such a pre Direction for flow detection can, however, depending on the arrangement in the flow and the measurement results can change over time also by changing its physical properties or change deposits on the temperature sensor.

The invention has for its object a device for detecting a Provide flow of the type mentioned, which, for example, in Ver binding with a fan is easy to use and reliable in the long run Provides measurement results.

This object is achieved in that in the flow path transverse to the the same one on an axis of rotation pointing essentially in the direction of flow rotatably mounted impeller is arranged, which by the air flow in Direction of rotation can be deflected and when deflected with a signaling device can be brought into operative connection for generating an electrical signal.

The easily rotatable impeller is sensitive to air flow and can also be easily adapted in size and shape to the respective operating conditions become. The flow energy immediately becomes mechanical movement of the impeller.

A simple structure for signal generation is that the Potential-free signaling device at least one switch contact has, by means of a projecting coupled with the impeller release element can be actuated directly or indirectly. It is conceivable the end Release element and the switch contact in the outer area of the impeller nen. A convenient arrangement and reliable actuation of the switch contact are achieved in that the trigger element in the central area of the Impeller and the switch contact in the central area of the impeller taking bracket are arranged.  

It is provided that the switch contact is spring-loaded and only when over wind the spring preload through the impeller moved by the flow closes or opens the electrical contact and falls below the Spring preload force through the impeller opens the closed contact, or closes the open contact, the impeller by the spring biasing force is rotated, the electrical signal is only at one sufficiently strong flow triggered, alternatively by closing or opening the contact, and the impeller becomes insufficient flow moved back from the actuation position solely by the switch contact.

Further design options for generating the electrical signal consist in that the signaling device at least one with the Impeller contactlessly interacting electrical, magnetic or Optical encoder for generating the electrical signal and that a Reset means is provided with which the impeller in a starting position is feasible. These include, for example, inductive and capacitive encoders or Light barriers. A mechanical, for example, comes as a resetting means Spring or magnetic forces in question, with which a kind of magnetic detent moment can be generated.

Different possibilities, statements about the flow or the function a fan or a flow path disturbance, e.g. B. pollution a filter mat to hit consist in that the signaling device with an evaluation device is connected and that the evaluation device for Output of a binary decision Flow available 1 Flow not available or - when designing the signaling device for detection several flow conditions - for evaluation and output of each Flow state is formed. For this purpose, it is advantageously provided that with  the evaluation device based on data specified in it and / or by it acquired further data a diagnosis of the cause of a flow change is feasible. The evaluation unit can, for. B. using a Microcontrollers can be easily programmed accordingly. The dates of the Signaling devices can be easily used when in corresponding digital data are converted.

A further embodiment of the device for more extensive use of electrical signals is that the evaluation device is part of a ordered control device, with which depending on the evaluation result other components connected to them can be controlled. Example other cooling components may fail if a monitored fan fails switched on or their cooling capacity increased. You can also use a remote monitoring of the flow via a data network or storage of the Realize measurement results. The evaluation device can be more functional Part or an integral part of the higher-level control device such. B. a control cabinet monitoring device and control cabinet control be direction.

A configuration which is favorable for the assembly and the arrangement consists in that the impeller and at least parts of the signaling device with a Carrier unit of the fan can be connected to form a structural unit. A cheap one Further training consists in the fact that the structural unit is in the air flow has filter mat arranged away and / or a cover grid.

The invention is described below using an exemplary embodiment Reference to the drawings explained in more detail. Show it:  

Fig. 1 is a perspective view of a device for detecting a flow and a fan and

FIG. 2 is an enlarged perspective view of the flow detection device shown in FIG. 1.

A device shown in Fig. 1 and Fig. 2 1 for detecting a flow (flow valve) has a valve disposed in a holder 1.1 1.5 impeller which is mounted freely rotatable on a central axis of rotation 1.6. The bracket 1.1 has two plate-like supports 1.2 , 1.3 , which in the present case have approximately square outer contours and delimit an essentially cylindrical air duct 1.4 in the interior, the diameter of which is adapted approximately to the diameter of the impeller 1.5 , so that this is as possible from the air flow is completely grasped and can rotate freely. The carriers 1.2 , 1.3 are connected to one another by a cylindrical section enclosing the air guide duct 1.4 and further web-like elements in order to preferably form the holder 1.1 as a one-piece molded part. With their outer contour and the contour of the air duct 1.4 , the supports 1.2 , 1.3 are also adapted to the outer contour and an air duct of a fan housing 2.1 of a fan 2 and can be connected to the fan housing 2.1 with fastening means 4 in the form of screws with a precise fit. A fan wheel 2.2 for generating the air flow is rotatably mounted in the fan housing 2.1 . On the side of the holder 1.1 facing away from the fan 2, a cover grille 3 can also be attached with fasteners 4 as protection on the second carrier 1.3 . The bracket 1.1 with the impeller 1.5 , the fan 2 with the fan housing 2.1 and the grille 3 form a compact, easy-to-use unit in the assembled state.

The impeller of 1.5 has a central hub on a pin-like or cam-like trip member 1.7, which in the form of a switch for actuating a potentiolfrei designed switch contact and He generation acts with corresponding rotational position of the wing rads 1.5 on an actuator of a signal generator 1.8 of an electrical signal. The switch forms part of a signaling device and is connected with a connecting cable 1.9 to an evaluation device (not shown).

In the presence of air flow, the easily rotatable impeller 1.5 is rotated accordingly and actuates the switching contact with the trigger element 1.7 , so that an electrical signal is emitted and an existing flow is signaled. The switching contact and / or the actuating element of the switch which interacts with it is spring-biased against the rotation of the impeller 1.5 , so that the impeller 1.5 does not actuate the switching contact in the event of insufficient flow or is moved back by the spring force when the flow drops. With the electrical signal formed by the switch contact, a statement is thus obtained as to whether there is a sufficient flow or not. The evaluation device can then be based on predefined or continued data, such as. B. control data of the fan 2 , also a diagnosis of the cause of a lack of air flow can be carried out. If, for example, the fan rotates in the required manner without a sufficient air flow being present, a filter mat may be dirty, for example, or another obstacle may be present in the flow path.

With more switch contacts and the detection of different deflection paths of the impeller 1.5 , different flow strengths can also be determined. Other signal transmitters such as B. electrical, magnetic or optical sensors, such as capacitive or inductive sensors or light barriers or Hall elements in question, in which case several sensors can be seen to obtain different flow conditions. The impeller 1.5 can, for example, be held in a starting position with a weak mechanical spring or with magnetic elements or can be returned to such a position after deflection.

The data of the evaluation device can be used for monitoring and others Control of a higher-level monitoring device, for example one Control cabinet monitoring device, supplied with the example the control cabinet air conditioning is monitored and controlled and also other monitoring and control tasks are performed. Remote monitoring is also possible, the data being the evaluation direction can be transmitted via a connected network.

Claims (10)

1. A device for detecting a flow in an air flow path generated in particular by a fan ( 2 ), characterized in that an impeller ( 1.5 ) which is rotatably mounted on a shaft which essentially points in the direction of flow in the flow direction is arranged in the flow path transversely thereto and which is arranged by the air flow can be deflected in the direction of rotation and, when deflected, can be operatively connected to a signaling device ( 1.8 ) for generating an electrical signal. 2. Device according to claim 1, characterized in that the signaling device has at least one switching contact ( 1.8 ) which can be actuated indirectly or directly by means of a standing trigger element ( 1.7 ) coupled to the impeller ( 1.5 ). 3. Device according to claim 2, characterized in that the trigger element ( 1.7 ) in the central region of the impeller ( 1.5 ) and the switching contact ( 1.8 ) in the central region of a holder ( 1.1 ) receiving the impeller ( 1.5 ) are arranged. 4. Apparatus according to claim 2 or 3, characterized in that the switching contact ( 1.8 ) is spring-biased and only closes or opens the electrical contact when the spring biasing force is overwound by the impeller moved by the flow ( 1.5 ) and when the spring biasing force is undershot The impeller opens the closed contact or closes the open contact, the impeller ( 1.5 ) being rotated by the spring preload. 5. The device according to claim 1, characterized in
that the signal transmitter device ( 1.5 ) has at least one electrical, magnetic or optical transmitter, which interacts with the vane wheel ( 1.5 ) without contact, and for generating the electrical signal and
that a resetting means is provided with which the impeller ( 1.5 ) can be brought into an initial position. 6. Device according to one of the preceding claims, characterized in
that the signaling device is connected to an evaluation device and
that the evaluation device for outputting a binary decision flow is present / flow is not present or - when the signaling device is designed to detect a plurality of flow states - is designed to evaluate and output the respective flow state. 7. The device according to claim 6, characterized, that with the evaluation device based on the data specified in it and / or further data acquired by it, a diagnosis of the cause a flow change is feasible. 8. The device according to claim 6 or 7, characterized in that the evaluation device is part of a superordinate is arranged control device with which depending on the evaluator other components connected to them can be controlled. 9. Device according to one of the preceding claims, characterized in that the impeller ( 1.5 ) and at least parts of the signaling device can be connected to a support unit ( 2.1 ) of the fan to form a structural unit. 10. The device according to claim 9, characterized in that the structural unit has a filter mat arranged in the air flow path and / or a cover grid ( 3 ).