DE3738563A1 - Workplace light fixture - Google Patents

Abstract

In a workplace light fixture, in particular for illuminating a workplace at industrial sewing machines, comprising a lamp shade having a reflector for the directional illumination of a workplace area and devices for adjusting the brightness of the lighting fixture, provision is made, for the purpose of optimally adjusting the workplace illumination to the subjective brightness sensation of the operating person, for a sensor (7) to be provided for measuring the light intensity (I) which is reflected from the illuminated work area (A), and for the device for adjusting the brightness of the lighting fixture to be constructed as the control arrangement (11) comprising the sensor (7), in such a manner that the brightness of the lighting fixture (1) is controlled so that the intensity (I) of the reflected light is constantly held at a specific value. <IMAGE>

Description

The invention is directed to a work lamp, especially for lighting a workplace on industrial sewing machines, including a lampshade with reflector for directional lighting of a Work area and facilities for adjustment the brightness of the lamp.

For workplaces with which flat workpieces processed, that depends on subjective brightness not only feel the person employed there from the directly from a light source to the eye striking light intensity, but essentially also from the intensity of the from the flat sub position or the workpiece lying thereon light.  

Conventionally, the lighting intensity either by choosing an appropriate one Incandescent lamp specified or by a bright setting device manually once set an average. This leads more necessarily indicate that when processing very bright, flat workpieces the light intensity as too must be felt great, while with workpiece change the intensity back to the optimum remains.

Proceeding from this, the object of the invention based on a workplace lamp at the beginning mentioned type so that it can be used in any Working phase guarantee an optimal level of brightness who performs the subjective light impression of the is adapted to each person:

This is achieved according to the invention in that a sensor for detecting the from the illuminated Working area reflected light intensity pre see and that the device for adjusting the brightness of the lamp as the sensor comprehensive Control arrangement is designed such that the The brightness of the lamp is controlled so that the reflected light intensity on a particular Value is kept constant.

According to the invention, there is therefore automatic post-rain provided the light intensity of the luminaire, the integral brightness is not the control variable of the work space but the selective intensity drawn from the direction of the work area will, i.e. So from the direction in which that Eye of the respective operator is aligned.  

According to the invention, it is also possible with a factory changing pieces, e.g. industrial sewing machines, accompanying changes in brightness speed adjust automatically, so that the operator not to pay any attention to this needs. The same adjustment is achieved if the working material changes, if so e.g. after a series of shirts from a bright Fabric shirts made from darker and accordingly less reflective material are sewn.

In addition to the optimal illumination of the workplace is thereby achieved that the eyes of the operating personnel are spared, which in particular essential for longer working hours Meaning is.

Avoiding excessive lamp power leads to a longer lifespan, especially of Halogen lamps, with reduced at the same time Energy consumption, so that also an economical Advantage is achieved.

Avoid the intended brightness adjustment in addition, unnecessary warming of the work space due to a too high lamp output and makes a mechanical adjustment of the lamp to achieve an adjustment effect as far as possible dispensable.

It is advantageously provided that the sensor is designed as a photo transistor. Such a Photo transistor can easily be used in a conventional Transistor control circuit to control the through  the luminaire flowing current and thus from their Brightness can be used, being essentially returned to commercially available integrated circuits can be gripped.

In a preferred embodiment, that the sensor is one towards the Arbeitsbe has an open aperture. This will achieved that selectively only reflected from there Light is measured.

It is cheapest to determine the subject light impression on the operator's eye, if the sensor is in the area of the connecting line arranged between the eyes and the work area is. However, this makes one separate from the Luminaire bracket required. Instead of the sensor can also end in this area a light guide can be arranged so that the Sensor, e.g. a photo transistor, in the real union circuit itself can be arranged.

A particularly simple solution is obtained that the sensor is integrated in the lamp housing is. Since in most cases it can be assumed is that based on a basic setting of Brightness for setting an optimal lighting the detection of the change in intensity is essential is this arrangement of the sensor in most Cases fully meet the requirements of practice.

This is achieved in particular if according to a further embodiment, an adjusting device for the desired value to be adjusted, the reflec  tated light intensity is provided. Then also with a sensor installed in the lamp housing ensures that in the eye of the operator intensity reflected appropriately according to the changing reflectivity of workpieces is changed.

Furthermore, a switch for bridging the Arrangement for adjusting the brightness provided be. With such a switch it is e.g. possible, the maximum brightness for a short time switch on, e.g. if especially briefly difficult manipulations, such as threading of the thread into the needle.

Other features, advantages and details of the Invention emerge from the following description a preferred embodiment based on the drawing nung. Show

Fig. 1 is a schematic representation of a workplace lamp according to the Invention above a work area and

Fig. 2 is a schematic circuit arrangement of the brightness control according to the invention.

A task light 1 shown in FIG. 1 is disposed over a only partially shown luminaire 2 at a work station comprising a plate 3 comprises, be processed on which flat workpieces 4, eg the working plate on a sewing machine, at which shirts or the like . to be sewn. The work lamp 1 illuminates the work area A , whereby reflected light - as indicated by the beam 5 - which was reflected on the upper side of the workpiece 5 , enters the eye 6 of the operator working at the workplace.

A sensor 7 or a light guide leading to the sensor can preferably be arranged in the area of the connection straight between work area A and eye 6 - as indicated only schematically - or integrated into the housing 8 of the lamp 1 . In the latter case, the sensor 7 - as illustrated by the rays 9 - more or less 180 ° reflected light from the work area A.

As is only indicated schematically in FIG. 1, the sensors 7 can be assigned diaphragms 10 which are open towards the working area A , so that only light reflected from there reaches the respective sensor 7 selectively.

The circuit arrangement 11 shown in FIG. 2 can also be arranged, for example, in the housing 8 of the lamp 1 . It includes a supply line 12 , which can be connected to a 220 volt voltage connection and can be interrupted via a power switch 13 . To operate a halogen lamp, ie to generate a lower DC voltage, a transformer 14 with a downstream temperature fuse 15 and a rectifier 16 are provided.

The outputs of the rectifier 16 can optionally be connected directly to the halogen lamp 18 of the lamp 1 via a double switch 17 .

When the double switch 17 is open, the halogen lamp 18 is supplied with voltage via a control arrangement, which comprises the phototransistor T 1 acting as a sensor 7 , which is followed by a transistor T 2 and a Darlington arrangement T 3 as the amplifier circuit. Corresponding to the change in resistance due to the incident light intensity on the phototransistor T 1 , its collector-emitter resistance changes accordingly, and accordingly the collector-emitter resistance of the Darlington arrangement T 3 , so that the light inks falling on the transistor T 1 increase I close the Darlington arrangement T 3 further, so that the lamp voltage is reduced and thus also the light intensity, conversely with a decrease in the incident intensity I , for example when a bright workpiece is removed from the work area or dark workpieces are processed instead of bright ones are, the Darlington arrangement T 3 opens further, so that the lamp voltage and thus the light intensity increases.

The parallel-connected potentiometers R 8 , R 7 make it possible to individually set an automatically adjustable value of the reflected intensity and thus the subjectively perceived illumination of the workpiece.

Also, the setting of this potentiometer R 7, R 8 is bridged by the double switch 17, that is, independently of the set control value reaches the maximum lamp brightness upon actuation of this switch 17th

Claims (6)

1. work lamp, in particular for lighting a workplace on industrial sewing machines, comprising a lampshade with reflector for directional lighting of a work area and devices for adjusting the brightness of the lamp, characterized in that a sensor ( 7 ) for detecting the area from the illuminated Arbeitsbe ( A ) reflected light intensity ( I ) is easily seen, and that the device for adjusting the brightness of the lamp as the sensor ( 7 ) comprising comprehensive control arrangement ( 11 ) is designed such that the brightness of the lamp ( 1 ) is controlled so that the reflected light intensity ( I ) is kept constant at a certain value. 2. Work lamp according to claim 1, characterized in that the sensor ( 7 ) is designed as a phototransistor ( T 1 ). 3. Work lamp according to claim 1, characterized in that the sensor ( 7 ) in the direction of the work area ( A ) towards open aperture ( 10 ). 4. Work lamp according to claim 3, characterized in that the sensor ( 7 ) in the lamp housing ( 8 ) is integrated. 5. Work lamp according to claim 1, characterized in that an adjusting device (potentiometer R 7 , R 8 ) is provided for the desired value to be adjusted of the reflected light intensity ( I ). 6. Work lamp according to claim 1, characterized in that a switch ( 17 ) for bridging the control arrangement ( 11 ) is provided.