DE4013133C2 - Lamp monitoring device with solar cell (s), in particular for a UV light for irradiating test objects during magnetic powder or paint penetration testing - Google Patents

Description

The invention relates to a device for monitoring a Lamp unit, in particular a UV lamp for irradiation of test objects in magnetic powder and dye penetrant testing, with an electrical measuring voltage source.

In the non-destructive testing of ferromagnetic Metal workpieces, especially on surface cracks, be the stationary or continuous sprayed moving workpieces with a fluorescent suspension, which contains magnetizable particles (iron powder), a predetermined strong and possibly aligned accordingly Magnetic field and exposed by an ultraviolet Luminaire or lamp with a different spectral composition illuminated. By aligning the magnetic powder the respective course, the quantity or the size of the surface cracks made visible and by the examining person visually observed and assessed or the Crack indication is evaluated automatically. During the dye penetration test non-ferromagnetic materials becomes one fluorescent liquid used in existing Surface cracks / pores penetrate and accordingly under UV Illumination makes the imperfections observable. The z. B. with A halogen lamp equipped with a UV lamp is still in progress the operation exposed to loss of intensity, mainly on the loss of power of the UV light or on the Contamination of the reflector or the filter or lamp glass are based. The contamination of the filter glass (or Reflector) is a particularly common cause of the loss of intensity. That is why one tries to use the reflector room to be largely dustproof. It is also known to be a Insert the flat glass filter so that the Filter is replaceable. Despite many precautions  and it remains appropriate, the objective intensity values check the lamp from time to time. To consider is that the number of crack indicators found is significant depends on the UV intensity.

To maintain accurate and reproducible values when testing in order to be able to, one must certainly know the time when the Replace burner and / or clean the filter glass. Although it is known to pass this test through a special one To carry out intensity measuring device from time to time. The device is provided with a probe at a predetermined distance attached to the filter glass.

However, here is a separate measuring device with associated Effort required, often not at the test site itself is available.

From MARKUS, J .: Modern Electronic Circuits Reference Manual, Mc Graw-Hill Book Company, New York, St. Louis, 1980, p. 714 is it z. B. known, electronic circuits with solar cells to operate.

The invention has for its object a device for Monitoring a lamp unit to indicate which is the constant Availability of the measuring device in a particularly simple manner Way guaranteed.

For this purpose, it is proposed according to the invention that one or several solar cell (s) as measuring voltage source on the device is (are) arranged and with one or more for sensor element (s) sensitive to a predetermined spectral range is (are) electrically connected.

Advantageous further developments result from the subclaims.  

You are no longer dependent on whether that Intensity meter is just tangible or not. You need also not the prescribed distance between the probe and Adjusting the filter glass for the individual case takes time takes. Especially with larger lights, especially UV Light up, is the arrangement with the necessary number of solar cells, which carries out the constant monitoring.

Furthermore, there is an advantageous simplification in that the monitoring group, consisting of the solar cells, the sensor and / or the associated electronics attached to the lamp housing made of sheet metal is.

The solar cells and the sensor element on the are advantageous Outside of the disc or plate-shaped lamp or Filter glasses arranged.

The associated lamp, in particular a UV lamp, can be used at least one suspension device or a mounting rail  stationary or movable connection.

An embodiment of the invention is shown in the drawing and is explained in more detail below. It shows

Fig. 1 in perspective, a monitored with the invention, lamp unit and light with the housing, the flat filter glass and a suspension device;

Fig. 2 is a schematic front view of the interior of the lamp;

Fig. 3 schematically, a side view showing the mutual arrangement of the burner, the filter glass and a kit that carries the sensor element and the solar cells;

Fig. 4 is a plan view of Fig. 3, again schematically.

The housing 10 of the lamp, cf. Fig. 1, 2, by fixing lugs 11 and chain links, for stationary or movable. B. attached to a mounting rail. The workpieces to be tested are located below the flat glass filter 12 . The lamp is provided with a cooling fan 14 and can have lateral chambers 16 , so that cooling air drawn in via lower slots 17 flows upward through these chambers and is discharged to the outside again through upper slots 18 with the aid of the cooling fan 14 . This type of cooling is known. A burner 19 , e.g. B. halogen burner, is located approximately in the middle of the lamp and with the help of a reflector 15 , the light falls through the flat glass filter 12 on the lower workpieces, not shown here. An insert frame 13 is used for easy replacement of the dirty filter glass.

The details of the monitoring device are shown in FIGS. 3 and 4. The sensor element 21 for the predetermined spectral range is located on the outside, ie the side of the flat glass filter 12 facing the workpiece to be tested. When using a UV light, the sensor element 21 is designed to be particularly sensitive for the wavelength 365 nm. However, the invention is not restricted to this wavelength range. One or more solar cells 20 are electrically connected to the sensor element. These components are, cf. Fig. 1, preferably 12 or the housing 10 is arranged in a corner region of the flat glass filter. They are advantageously fastened on a holding plate 22 , which also holds a holding magnet 23 and the associated electronics unit 24 . This unit 24 is connected to the solar cell or cells 20 and can also contain an acoustic or visual display device 25 for monitoring the lights. The associated display field 25 can be that of a light scale on which LED elements optically, graphically or digitally indicate that there is sufficient light intensity of the burner 19 on the outside behind the flat glass filter 12 . Through the holding plate 22 , an entire kit, consisting of the parts 21, 23, 24 , in particular as a prefabricated kit, can be easily attached to or detached from the housing of the lamp. The display scale can also be shown separately from the electronics on a separate screen with enlarged symbols.

Since a relatively low proportion of white light is sufficient for the solar cells, the cells renew themselves during operation. There is no need for special measures for renewal. A separate intensity measuring device is eliminated, as is the separate sensor. The sensor element 21 is adjusted at a fixed distance relative to the filter glass 12 . Constant monitoring, e.g. B. in a certain field of view 25 of the electronics unit 24 ensures in a simple manner that a contaminated filter disk is replaced in good time: false evaluations, whether optical or automatic, are thus reduced. The same advantages are achieved with regard to monitoring the burner. If the burner output falls below a predetermined limit, this is also displayed in the electronic field of view 25 and, in turn, the lamp can be replaced at the right time faster than before.

The invention is not only for monitoring UV Luminaires suitable, but wherever the waste of the  Light intensity or a selective light intensity in one optical beam path must be expected, also in connection with a glass filter or to monitor operational efficiency of an irradiated filter alone. The invention is applicable both for stationary, but in individual cases also for portable or manually operated Lamps. This also includes the various flash lamps that be provided with flat glass panes, prisms and / or lenses can.

Claims (6)

1. Device for monitoring a lamp unit, in particular a UV lamp ( 19 ) for irradiating test objects in the magnetic powder or color penetration test, with an electrical measuring voltage source, characterized in that one or more solar cells ( 20 ) as a measuring voltage source at the Device ( 10, 22, 13 ) is (are) and is (are) electrically connected to one or more sensor element (s) ( 21 ) sensitive to a predetermined spectral range. 2. Device according to claim 1, characterized in that one or more solar cell (s) ( 20 ) on the outside of the UV light ( 19 ) facing away from a disc-shaped lamp or filter glass ( 12 ) is (are) arranged. 3. Device according to claim 1 or 2, characterized in that one or more solar cell (s) ( 20 ), one or more sensor element (s) ( 21 ), an associated electronics unit ( 24 ) and / or a display device ( 25 ) are summarized in an electrical kit and the kit is rigidly or releasably attached to a part of the housing ( 10 ). 4. The device according to claim 3, characterized in that the solar cell (s) ( 20 ), the sensor element (s) ( 21 ) and / or the associated electronics unit ( 24 ) by at least one holding magnet ( 23 ) on part of the Housing ( 10 ) is (are) attached. 5. Device according to one of the preceding claims, characterized characterized that they are operated with a flash Lamp or lamp is connected. 6. Device according to one of claims 3 to 5, characterized in that one or more solar cell (s) ( 20 ), one or more sensor element (s) ( 21 ) and / or the associated electronics unit ( 24 ) in a corner region of the flat filter glass ( 12 ) is (are) arranged.