DE102008037486B4 - distance meter - Google Patents

Abstract

Distance measuring device (10), such as a laser distance measuring device, comprising a flat cuboid housing (12) with a radiation transmitting and receiving device present therein, a trigger (28) for emitting the radiation, a first wall of the housing having a radiation exit and entry opening (24) and the opposite wall or its outer surface (13) forms a stop surface or stop edge, with flat sides (20, 22) and transverse sides (16, 18) running perpendicular to the first wall and with a control panel (26) being located in one of the flat sides, for example is present, characterized in that a handle (32) which can be adjusted relative to the housing (12) and can be gripped laterally by the housing extends from the housing (12), in that the handle (32) rotates about an axis (34) perpendicularly passing through the flat sides (20, 22) is pivotable, the handle (32) being displaceable and then pivotable in the longitudinal direction of the housing.

Description

The invention relates to a distance measuring device, such as a laser distance measuring device, comprising a housing with a radiation transmitting and receiving device present in it, a trigger for emitting the radiation and a control panel, with a first wall of the housing having a radiation exit and entry opening and an opposite wall or whose outer surface forms a stop surface or stop edge, and flat sides and transverse sides run perpendicular to the first wall.

Corresponding distance measuring devices are used to measure distances. For this purpose, the boundary wall of the housing opposite the radiation exit or entrance opening usually serves as a housing support in order to carry out a measurement.

Measurements are often taken from wall to wall, with the user standing to the side of the device and holding the end of the device against the wall. Because of this positioning, the user is forced to operate the device in an ergonomically difficult position between palm and thumb.

From the WO 01/75396 A1 a distance measuring device is known with which there is the possibility of detecting a desired swivel angle between two or more measured distances. For this purpose, the housing is attached to a tripod. The housing can then be pivoted about an axis defined by the stand.

Of the WO 2005/038406 A1 discloses a distance measuring device that has a measuring stop body that can be adjusted relative to the housing of the measuring device in order to be able to carry out different types of distance measurement.

A laser distance meter after the DE 100 63 483 A1 provides an adjustment rod adjustable along a longitudinal side of the housing to allow precise alignment of the housing.

Of the U.S. 5,949,529 A is a laser-based surveillance system with compass.

The present invention is based on the object of further developing a distance measuring device of the type mentioned at the outset in such a way that it can be handled easily, in particular the device is ergonomically simple and safe to handle.

In order to achieve the object, the invention essentially provides that a handle that can be adjusted relative to the housing and can be gripped laterally by the housing extends from the housing, that the handle can be pivoted about an axis perpendicularly passing through the flat sides, the handle being displaceable in the longitudinal direction of the housing and is then pivotable.

There is also the possibility that the handle can be pulled off the housing and plugged onto the housing in different positions.

The handle preferably has a U-geometry with flat legs extending along the flat sides and a transverse leg connecting these and extending along one of the walls when the handle is in the non-pivoted position. In this case, the handle should extend in the non-pivoted or non-reversed position with its transverse leg along the wall forming the stop surface or edge.

One embodiment that should be emphasized provides that the wall forming the stop surface or edge preferably has rib-like projections whose free outer surfaces span a plane forming the stop surface or edge.

Furthermore, the transverse leg of the handle can have recesses such as slots adapted to the projections. These should be penetrated by the projections when the handle is in the basic position in such a way that their free outer surfaces form the stop surface or edge.

Due to the construction according to the invention, the housing is not noticeably enlarged by the handle. At the same time, there is the possibility of pivoting or repositioning the handle on both sides of the transverse sides, ie clockwise and counterclockwise.

The transverse limb should have a U-geometry, in particular parallel to the flat limbs, with sections running between the longitudinal edges of the flat limbs, which extend along the transverse sides of the housing in the basic position of the handle. Furthermore, the sections should engage in geometrically adapted recessed areas, that is to say in notches of the housing. This results in immovability, which is canceled when the handle is adjusted in the longitudinal direction of the housing, so that pivoting is then made possible. At the same time, there is the advantage that additional protection of the radiation exit and on access opening takes place without being optically covered.

In an embodiment that is particularly noteworthy, it is provided that the trigger extends from the handle. Thus, the operability is additionally increased. It is also possible to integrate the control panel itself into the handle. The trigger can also be an area of the control panel.

There is also the possibility of aligning the handle with the housing in such a way that the beam entry and exit opening is covered, ie in order to protect it.

Further details, advantages and features of the invention result not only from the claims, the features to be taken from them - individually and/or in combination - but also from the following description of the preferred exemplary embodiments to be taken from the drawing.

• 1 ein Entfernungsmessgerät in einer ersten perspektivischen Darstellung,
• 2 das Entfernungsmessgerät nach 1 in einer zweiten perspektivischen Darstellung,
• 3 das Entfernungsmessgerät nach den 1 und 2 mit einer teilweise verschwenkten Handhabe und
• 4 das Entfernungsmessgerät nach den 1 bis 3 mit der um 90° verschwenkten Handhabe.

Show it:

• 1 a distance measuring device in a first perspective view,
• 2 the distance meter 1 in a second perspective view,
• 3 the distance meter according to the 1 and 2 with a partially pivoted handle and
• 4 the distance meter according to the 1 until 3 with the handle pivoted by 90°.

In the figures, a distance measuring device 10 is shown purely in principle, in particular in the form of a laser distance measuring device, which has a cuboid housing 12 with a first end face 13 as a stop surface or edge, an opposite end face 14, transverse side surfaces 16, 18 and longitudinal side surfaces 20, 22. The end face 14 or the wall delimited by this on the outside has a laser beam exit and entry opening 24 passing through it, through which the measuring beam is emitted and received after reflection. In the exemplary embodiment, the opposite end face 13 has rib-shaped projections 15, 17, 19 which span a surface which forms the stop surface or edge.

A control panel 26 extends from the upper side surface 20 in order to evaluate and numerically display measurement signals by means of a computing unit present in the housing. For this purpose there is a display 30 on the front surface 20, on which the measured values are displayed.

The housing also contains a laser diode and optics to focus the radiation emitted by the laser diode to the desired extent. There is also a receiver, such as an opto-electronic converter, which receives the reflected radiation. In this respect, however, reference is made to the usual designs of distance measuring devices, which do not necessarily work with laser radiation, but can also work with infrared radiation or ultrasound.

In contrast to known distance measuring devices, the measuring device 10 according to the invention has a handle 32 which can be displaced both in the longitudinal direction of the housing 12 and pivoted about an axis 34 perpendicularly passing through the side faces 20, 22. There is also the possibility of removing the handle 32, i. H. to be detached from the measuring device 10 and attached in a different position, e.g. B. in a 90 ° to the longitudinal axis of the device housing 12 deviating position.

The handle 32, which has a U-shaped geometry in longitudinal section, has two flat legs 36, 38, which should correspond to the width of the flat sides 20, 22 in their respective width extension.

The transverse limb 40 connecting the flat limbs 36, 38 also has a U-geometry in a plane running parallel to the flat limbs 36, 38, and consequently encompasses the longitudinal edges of the sections 42, 44 connecting the side limbs 36, 38, which in the basic position of the handle 32, like this one in the 1 is shown, engage in corresponding notches 46, 48 of the transverse sides 16, 18 forming walls.

Thus, in the basic position, the handle 32 represents an integral part of the housing 12, so to speak, without this being noticeably enlarged in terms of volume.

The transverse leg 40 also has strip-shaped openings 41, 43, 45, which are penetrated in the basic position of the handle 32 by the rib-shaped projections 15, 17, 19 such that the outer surface of the transverse leg 40 is either aligned with the stop surface or - edge-forming free outer surfaces of the projections 15, 17, 19 runs or are set back with respect to these.

In order to enable the sliding and then pivoting of the handle 32 in the longitudinal direction of the housing 12, elongated flat brackets 48 run along the longitudinal side surfaces 20, 22 of the housing 12, which are connected to one another and pivotable about the axis 34 are. The flat legs 36 , 38 then proceed from the brackets 48 . For this purpose, the flat legs 36 , 38 have cutouts 50 adapted to the holders 48 , the inner edges of which engage in corresponding longitudinal grooves in the holders 48 . The brackets 48 thus form a guide for the handle 32 for its longitudinal displacement. So is in 1 the handle 32 shown in its basic position, whereas in the 2 the handle 32 is axially displaced in such a way that the sections 42, 44 come into disengagement with the notches or recesses 46, 48 of the housing 12 and release the handle 32 so that it can be pivoted ( 3 and 4 ).

Furthermore, a pressure switch 28 or another switch for switching the device 10 on and off or for triggering the measurement extends from the holder 48 of the handle 32 on the control panel side and shown in the figures, so that the handle 32 pivots along with it. Of course, the switch 28 can also come from the housing surface or be integrated in the operator panel 26 .

Furthermore, the drawing shows that the flat leg 36 of the handle 32 running along the front side 20 has a recess for the control panel 26 .

Claims (12)

Distance measuring device (10), such as a laser distance measuring device, comprising a flat cuboid housing (12) with a radiation transmitting and receiving device present therein, a trigger (28) for emitting the radiation, a first wall of the housing having a radiation exit and entry opening (24) and the opposite wall or its outer surface (13) forms a stop surface or stop edge, with flat sides (20, 22) and transverse sides (16, 18) running perpendicular to the first wall and with a control panel (26) being located in one of the flat sides, for example is present, characterized in that a handle (32) which can be adjusted relative to the housing (12) and can be gripped laterally by the housing extends from the housing (12), that the handle (32) rotates about an axis (34) perpendicularly passing through the flat sides (20, 22) is pivotable, the handle (32) being displaceable and then pivotable in the longitudinal direction of the housing. distance measuring device claim 1 , characterized in that the handle (32) can be pulled off the housing (12) and plugged onto the housing in different positions. distance measuring device claim 1 , characterized in that the handle (32) has a U-geometry with flat legs (36, 38) extending along the flat sides (20, 22) and a transverse leg (40 ) having. distance measuring device claim 1 , characterized in that the handle in the non-pivoted or non-relocated position extends with its transverse leg (40) along the wall forming the stop surface or edge. distance measuring device claim 1 , characterized in that the wall forming the stop surface or edge preferably has rib-like projections (15, 17, 19) whose free outer surfaces span a plane forming the stop surface or edge. distance measuring device claim 5 , characterized in that the transverse leg (40) of the handle (32) has recesses (41, 43, 45), such as slots, adapted to the projections (15, 17, 19). distance measuring device claim 6 , characterized in that the projections (15, 17, 19) when the handle (32) is in the basic position pass through the recesses (41, 43, 45) in such a way that their free outer surfaces form the stop surface or edge. distance measuring device claim 3 , characterized in that the width of the flat side (36, 38) of the handle (32) is the same or approximately the same as the width of the flat side (20, 22) of the housing (12). distance measuring device claim 3 , characterized in that the transverse limb (40) parallel to the flat limbs (36, 38) has a U-geometry with sections (42, 44) running between the longitudinal edges of the flat limbs, which in the basic position of the handle (32) extend along the transverse sides (16, 18) of the housing (12). distance measuring device claim 9 , characterized in that the sections engage in geometrically adapted areas (46, 48) of the housing (12). distance measuring device claim 1 , characterized in that the trigger (28) extends from the handle like a pressure switch. distance measuring device claim 1 , characterized in that the control panel (26) extends from the handle.

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