DE4203675A1 - Laser level device for measuring inclination - has parallelepiped body with internal laser source, electronic alignment detection device with externally readable detector and externally mounted rotatable prism - Google Patents

Abstract

The laser level device has a parallelepiped body (1) with internal laser source whose beam path lies parallel to the length of the body and whose beam emanates from one end. An electronic alignment detection device, esp. inside the body, is connected to an externally readable indicator. A housing section (2) attached to the body in front of the outlet aperture either directly or via an adapter (3) holds a motor-driven rotatable reflection prism (6) with 90 deg. deflection angle. The prism is arranged in the laser beam path with its axis coaxial with the laser beam. ADVANTAGE - Allows wider range of applications, including mounting on frame and rotating in horizontal plane to enable measurement of individual points on circle.

Description

The invention relates to a laser scale consisting of a cuboid body with an interior Laser beam generator, whose beam path is parallel to Longitudinal extension of the body is directed and its Beam emerges at one end of the body, whereby - Electronic alignment especially in the body Detection device is arranged with a optical, readable display device from the outside connected is -.

Such a laser scale is in DE 91 02 656 U1 described.

The invention is based on this prior art based on the task of using the laser scale for more To make application areas usable.  

To solve this problem it is proposed that on Body in front of the jet outlet opening immediately or with the interposition of an adapter a housing part can be fastened, which is a motor-rotatable Reflection prism with a deflection angle of 90 °, which is arranged in the beam of the laser beam generator and whose axis of rotation is coaxial with the laser beam.

With this training it is possible to use the laser scale For example, to attach to a tripod and exactly align horizontally, then either Housing part with the reflection prism in front of the beam path the laser scale is set.

With this training, the laser beam exit is around Angled 90 ° and describes when the reflection rotates prismas a vertical circle so that the individual Space points can be drawn on this circular line can.

It is also possible to align the laser scale vertically, the reflection prism is about the vertical axis can rotate and thus the laser beam a horizontal Circle describes which are marked accordingly can to carry out a measurement.  

On the other hand, by inserting the adapter a 180 ° deflection of the laser beam parallel to the center longitudinal axis of the laser scale can be reached, then again with the laser scale arranged horizontally Laser beam that passes through the two reflection prisms is deflected, describes a horizontal circle, so that corresponding horizontal measurement points are recorded can be.

The last arrangement is particularly advantageous Design according to claim 2 possible.

A preferred further development is seen in the fact that the face of the body by the Radiation exit opening is penetrated, a parallel has groove guide directed towards the end face, in which the area provided with the radiation entry opening the cuboid adapter or the housing part with a corresponding groove guide can be inserted until in a position in which the radiation exit opening and the beam entry opening coaxial with each other are directed.  

Furthermore, it is preferably provided that the adapter on the surface provided with the radiation exit opening an identical groove guide for holding the housing part having.

With this design, the additional housing part as well as the adapter lightly on the corresponding surface postpone the laser scale, being a proper one Fit and exact assignment of the parts to each other is reached.

It is a particularly preferred development seen that the motor drive of the reflection prism by an electrical arranged in the housing part Stepper motor is formed.

It is preferably provided that the reflection prism in a holder rotatably attached to the housing part Beam inlet and outlet opening is arranged, the holder being a hollow shaft lying in the beam path has, via a gear or a belt drive is coupled to the stepper motor.  

Furthermore, it is preferably provided that the motor Drive by means of a arranged on the housing part Switch is switchable, preferably by means of a wire loose remote control.

The rotatably held deflection prism can according to this Training is stopped at every grade, by using a stepper motor as a drive an extremely precise setting can be achieved by means of that works almost without caster. The speed of the stepper motor can be determined by an ent speaking controller to values between 0 and 900 Revolutions per minute can be set.

Furthermore, it is preferably provided that the Housing part and the adapter have the same cross-section measurement of how the body shows.

Finally, it is preferred that a preference in the housing part as rechargeable battery as an electrical supply interchangeable device for the motor drive is arranged.  

The electrical supply can, for example, by a 9 volt battery.

The operation of the facility is also means remote control possible than after switching on one Main switch using a wireless remote control the electric drive can be actuated, why known transmission and reception means in one Remote control and are arranged on the housing part.

Embodiments of the invention are in the drawing shown and described in more detail below.

It shows:

Figure 1 shows a first embodiment in view.

Figure 2 shows a detail in the assembly position.

FIG. 3 shows a variant in the view according to FIG. 1;

Fig. 4 shows the variation in the view of FIG. 2.

In the drawing, a laser scale 1 is shown, which has a cuboid body with an internal laser beam generator, the beam path of which is directed parallel to the longitudinal extension of the body and whose beam emerges at the end face 4 of the body, for which purpose a corresponding outlet opening 5 is provided.

The structure and mode of operation of the laser scale is in the generic state of the art G 91 02 656 U1 described.

On the body of the laser scale 1 in front of the radiation exit opening 5, either directly (according to the embodiment of FIGS . 1 and 2) or indirectly with the interposition of an adapter 3 (according to drawings 3 and 4 ), a housing part 2 can be fastened, which has a motor-rotating reflection prism with a deflection angle of 90 °. This reflection prism 6 is arranged in the beam 7 of the laser beam generator, the axis of rotation of which runs coaxially with the laser beam 7 .

The direction of rotation of the reflection prism is indicated at 8 .

In the embodiment according to FIGS. 3 and 4, the adapter 3 has a fixed reflection prism 9 with a deflection angle of 90 °. This is also arranged in the laser beam 7 , with the housing part 2 with the motor-rotatable reflection prism 6 being coupled to the beam exit opening 10 of the adapter 3 , the beam exit opening of which lies in a plane offset parallel to the body of the laser scale 1 relative to the longitudinal central axis of the body. This exit beam is designated 11 . The laser beam is thus first directed in the position according to reference numeral 7 onto the deflection prism 9 , angled upwards by 90 ° in the drawing and angled from the further deflection prism 6 in turn by a further 90 °, so that the exit beam 11 is parallel to the laser scale 1 directed exit.

The end face of the body of the laser scale 1 , through which the beam exit opening 5 passes, has a groove guide 12 directed parallel to the end face 4 , into which the surface of the cuboid adapter 3 or the housing part 2 provided with the beam entry opening can be inserted with a corresponding groove guide 13 .

In the fully inserted position, as can be seen from FIGS. 1 and 3, the radiation exit opening 5 and the radiation entry opening of the adapter 3 or the cuboid housing part 2 are coaxial to one another. In the intermediate circuit of the adapter of FIG. 2, the outlet opening 10 of the adapter 3 is coaxial with the inlet opening in the corresponding end face of the housing part 2. The adapter 3 has on the surface provided with the radiation exit opening 10 a same groove guide 13 for holding the additional housing part 2 .

The motor drive of the rotatable reflection prism 6 is formed by an electric stepping motor arranged in the housing part 3 . The reflection prism 6 is arranged in a holder 14 rotatably fastened to the housing part 3 and having a beam entrance and exit opening. The holder has a hollow shaft lying in the beam path (beam 15 according to FIG. 3 or beam 7 according to FIG. 1), which is coupled to the stepper motor via a gear or a belt drive. The motor drive can be switched by means of a switch arranged on the housing part 3 , preferably by means of a wireless remote control. The housing part 2 and the adapter 3 have essentially the same cross-sectional dimension as the body of the laser scale 1 . In addition, a battery or the like, preferably a rechargeable accumulator, is interchangeably arranged in the housing part 2 .

FIGS. 2 and 4 show how the individual parts are to be put together, while FIGS. 1 and 3 show the completed parts.

It is also the beam path of the output beam 11 in Fig. 1 transverse to the longitudinal axis of the laser scale and in Fig. 3 offset parallel to the central longitudinal axis of the laser scale 1 can be seen, with a corresponding vertical or horizontal plane spanned by rotation of the deflection prism 6 .

The invention is not based on the embodiment limited, but often within the scope of the disclosure variable.

All new, in the description and / or drawing disclosed individual and combination features regarded as essential to the invention.

Claims (9)

1. Laser scale, consisting of a cuboid body with an internal laser beam generator, the beam path of which is directed parallel to the longitudinal extension of the body and the beam emerges at an end face of the body, an electronic alignment detection device being arranged in the body, in particular with an optical one from the outside readable display device is connected -, characterized in that on the body ( 1 ) in front of the radiation exit opening ( 5 ) directly or with the interposition of an adapter ( 3 ) a housing part ( 2 ) can be fastened, which has a motor-driven rotating prism ( 6 ) with a deflection angle of Holds 90 °, which is arranged in the beam of the laser beam generator and whose axis of rotation runs coaxially to the laser beam. 2. Laser balance according to claim 1, characterized in that the adapter ( 3 ) has a fixed reflection prism ( 9 ) with a deflection angle of 90 °, which is arranged in the laser beam, with the beam exit opening ( 10 ) of the adapter ( 3 ) Housing part ( 2 ) is coupled to the motor-rotatable reflection prism ( 6 ) and its radiation exit opening lies in a plane offset parallel to the body ( 1 ) relative to the longitudinal central axis of the body ( 1 ). 3. Laser balance according to claim 1 or 2, characterized in that the end face ( 4 ) of the body ( 1 ), which is penetrated by the radiation exit opening ( 5 ), has a parallel to the end face ( 4 ) directed groove guide ( 12 ), in which the surface of the cuboid adapter ( 3 ) or of the housing part ( 2 ) provided with the beam entry opening can be pushed in with a corresponding groove guide ( 13 ) until a position in which the beam exit opening and the beam entry opening are directed coaxially to one another. 4. Laser balance according to one of claims 1 to 3, characterized in that the adapter ( 3 ) on the surface provided with the radiation exit opening ( 10 ) has the same groove guide ( 12 ) for holding the housing part ( 2 ). 5. Laser scale according to one of claims 1 to 4, characterized in that the motor drive of the reflection prism ( 6 ) is formed by an electric stepping motor arranged in the housing part ( 3 ). 6. Laser balance according to claim 5, characterized in that the reflection prism ( 6 ) is arranged in a rotatably mounted on the housing part ( 3 ) holder ( 14 ) with beam input and output opening, the holder ( 14 ) having a hollow shaft lying in the beam path , which is coupled to the stepper motor via a gear or a belt drive. 7. Laser scale according to one of claims 1 to 6, characterized in that the motor drive can be switched by means of a switch arranged on the housing part ( 3 ), preferably by means of a wireless remote control part. 8. Laser scale according to one of claims 1 to 7, characterized in that the housing part ( 3 ) and the adapter ( 2 ) has the same cross-sectional dimension as the body ( 1 ). 9. Laser scale according to one of claims 1 to 8, characterized in that in the housing part ( 2 ) a preferably rechargeable battery is arranged as an interchangeable electrical supply device for the motor drive.