BE1028959B1 - Construction laser - Google Patents

Abstract

Construction laser (1) for projecting laser lines and/or laser points, wherein the construction laser (1) comprises a laser housing (2) and a support (3) on which the laser housing (2) is or can be mounted, characterized in that the laser housing ( 2) is constructed in such a way that it is watertight and that the base (3) has a base (14) with a turntable (15) on it, which is rotatably mounted on the base (14) and on which the laser housing (2) is detachably attached, or can be attached without tools.

Description

A BE2020/5814 Construction laser, The present invention relates to a construction laser,

More specifically, the invention relates to a line laser. With the known line lasers, also called cross line lasers, the light from a laser point is converted by means of a lens into a laser line, which is visible to the human eye. The existing line lasers contain several laser diodes which are mounted in the same plane so that the laser lines partly overlap each other, so that a laser line can be made visible over 360°.

Such laser lines can project horizontal laser lines and/or vertical laser lines and are often used indoors for interior work, for example for leveling a ceiling or building walls or the like perfectly straight.

However, line lasers can also be used outdoors in dry weather conditions, for example for the slope of a terrace.

A disadvantage of these known lasers is that they are not suitable for outdoor use in all weather conditions. > Another disadvantage is that adjusting the slope of a terrace or the like is relatively difficult and takes up a lot of time. Craftsmen often perform 1D assignments both indoors and outdoors, forcing them to purchase at least two devices, which is very expensive, and can be taken along with every assignment. The present invention aims to provide a solution for one of the aforementioned and other drawbacks.

To this end, the invention relates to a construction laser for projecting laser lines and/or laser points, wherein the construction laser comprises a laser housing and a chassis on which the laser housing is or can be fitted, the laser housing being designed in such a way that it is watertight and that the chassis has a The base contains a turntable that is rotatably mounted with the base and on which the laser housing is detachably attached or can be attached without tools.

An advantage is that the laser housing is waterproof and can therefore be used both indoors and outdoors in all weather conditions, in contrast to the existing lasers.

Another advantage is that professionals only have to buy and carry one laser for carrying out assignments indoors and outdoors. This is economically much more advantageous given the cost of a laser. hood open at the bottom and a bottom closing the opening, a seal being provided between the bottom and the hood for sealing the housing watertight.

For works for which the use of the aforesaid base is not necessary, for example for floor work, the laser housing can be removed from the chassis and applied directly to the substrate, so that the laser lines are projected closer to the substrate on which the laser housing is applied, whereby reduces the chance of measurement errors.

The Laser housing is fixed in a removable manner or can be attached to the chassis by means of fastening means for which no tools are required for mounting and removal, which fastening means are for example magnetic. and can be securely attached to and removed from the base.

à BE2020/5814 Such fastening means can be formed by one or more magnets in the bottom of the housing and/or in the turntable of the chassis or that only provide magnets in the bottom or in the turntable while the other of both is made in a materisai that can be magnetically attracted. A passage is preferably provided centrally in the bottom of the laser housing, which passage is closed at the top by a window for the laser beam projected through the laser housing along a perpendicular.

To this end, the chassis can be provided with a central passage which, in the mounted state of the laser housing on the chassis, extends in line with the above-mentioned perpendicular of the laser housing. In a preferred embodiment, the above-mentioned passage of the laser housing comprises an internal screw thread for fastening. of the laser housing on another base equipped with a screw bolt, for example on a tripod with tripod screw. An advantage of this is that the laser housing can be placed on several types of bases without an additional tripod adapter.

Preferably, the central passage of the undercarriage is also provided with an internal screw thread for attachment to

= BE2020/5814 a tripod with screw bolt, with or without the laser housing mounted on it.

An advantage of this is that the turntable and the fine adjustment can also be used when the construction laser is mounted on a tripod.

With the aim of better demonstrating the features of the invention, a preferred embodiment of a construction laser according to the invention is described below, by way of example without any limiting character, with reference to the accompanying drawings, in which: figure 1 is a diagrammatic and perspective view of a construction laser according to the invention; figure 2 shows the laser housing and just chassis from figure 1 in unassembled condition; figure 3 shows the laser housing according to arrow F3 from figure 2 in exploded view; figure 4 represents a bottom view according to arrow F4 in figure 3; figure 5 schematically and in perspective represents the undercarriage which is indicated by arrow F5 in figure 2; figure 6 represents a view according to arrow F6 in figure 2; figure 7 shows in perspective figure 5 mounted on a tripod: figure 8 shows in perspective figure 1 mounted on a tripod,

& BE2020/5814 The construction laser 1 shown in Figures 1 and 2 for projecting laser lines or laser points comprises a laser housing 2 and a support 3 on which the laser housing 2 is mounted.

The laser housing 2 comprises a watertight housing 4, as shown in figure 3, which is composed of a hood 5 which is open at the bottom and a bottom 6 closing the opening 7, a seal 8 being provided between the bottom 6 and the cap 5 . In addition, the laser housing 2 can also be provided with one or more laser diodes, electronics, a power supply and the like, which are not shown in the figures. Such laser diodes are preferably sufficiently strong to project laser lines over relatively long distances, for instance up to a distance. of two hundred meters from the Laser House ©.

Preferably provided in the bottom © of the laser housing 2 is a central passage 9a for a laser beam along the perpendicular of the laser housing 2 for projecting a locus point on the site on which the construction laser 1 is set up. Such passage 9a is preferably closed at the top by a window 10 in the bottom 6 of the laser housing 2, which window 10 also ensures the watertightness of the housing 4.

The watertightness of the laser housing 2 preferably corresponds to an "IPrcoding" (international protection rating) of at least ID-66,

2 The chassis 3, as shown in figure 5, can also be provided for this purpose with a central passage 9b which, in the mounted position of the laser housing 2 on the chassis 3, extends in line with the aforesaid perpendicular of the laser housing 2, so that the projection of the perpendicular through the passage 9a in the housing is not obstructed by the chassis 3. The front passage Sa of the laser housing 2 may include an internal screw thread for fixing the laser housing 2 to another chassis 3, e.g. a larger chassis 3, which is provided with a complementary screw bolt. The laser housing Z is preferably also provided with a control for controlling the inclination of laser lines. the feed 14 is arranged and on which the laser housing 2 is detachably fastened or can be fastened.

In the example shown in figure 3, the foot 14 of the undercarriage 3 is provided with three legs with which the undercarriage 3 stands on the ground, which gates are height-adjustable to enable the laser housing 2 to be placed in a stable and/or flat position on the ground. ,

The turntable 15 comprises a base which is rotatably mounted on the feel 14 of the base 3, in this case by means of a ring with a low coefficient of friction, e.g. sen cinq made of polytetrafluoroethylene, which ring is mounted on the rotatable base.

The turntable 15 is preferably provided with 12 fixing means 18 for fixing the laser housing 2 to the turntable 15 of the chassis 3. The laser housing is or can be removably fastened to the chassis by means of fixing means, as shown in figures 4 and 5, for which no tools are required for fastening and removing, which fastening means are, for example, magnetic. Such fastening means 18 are preferably formed by one or more magnets 19 in the bottom 6 of the housing 4, four magnets 19 in the example of figure 4, and for example complementary magnets 19 in the turntable 15 of the chassis 3.

In addition, it is also possible that the magnets 19 are provided in the bottom 6 of the laser housing 2 or in the turntable 15, while the other of the two are made of a material that can be magnetically attracted.

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However, this is not necessary, the turntable 15 and/or the laser housing 2 can also be provided with an and/or a snap connection and/or a screw connection and/or the like. 5 In the case of the example of figures 1, 2 5 and 8, the undercarriage 3 is provided with a fine adjustment 20 for minimal rotation of the turntable 15 about its rotary axis X-X', so that the laser lines can be set very accurately. In this case, the fine adjustment 20 protrudes laterally from the chassis 3 with both ends 23, wherein both ends 23 are provided with a rotary knob 24 to be able to rotate the axis of the fine adjustment 20. The fine adjustment 20 and the turntable 15 are adjusted in such a way that when the laser housing 2 is arranged on the chassis 3, the laser housing 2 is rotatable about its own axis X-X', which axis X<-X" then coincides with the central lead line of the laser lines. However, it is also possible that only one a single rotary knob 24 is provided for the fine adjustment 20. As shown in figure 6, the laser housing 2 can also be used separately from the chassis 3, the laser housing 2 in this case being arranged on the ground.

In addition, it is also possible to screw the laser housing Z on a tripod 11 with screw bolt into the front passage 9a of the laser housing 2, as shown in the example of Fig. 7, in order to project laser lines at a desired height,

However, it is also possible, as in the example of figure 8, to fix the construction laser 1 on the tripod 11 by mounting both the support 3 and the laser housing 2 on the tripod 11,

in this case, a user can also minimally rotate the laser housing 2 on the tripod 11 by using the aforementioned fine adjustment 20 of the base 2. The present invention is by no means limited to the embodiment described by way of example and shown in the figures, but a construction laser according to the invention can be realized in all kinds of shapes and dimensions without departing from the scope of the invention,

Claims (1)

Conclusions. | 1.- Construction laser {1} for projecting laser lines; 5 and/or laser points, wherein the construction laser (1) comprises a laser housing {2} and a support (3) on which the laser housing (23 [ is or can be fitted, characterized in that the laser housing {2} is designed in such a way that it is watertight and that the base {3} has a foot {14} with a turntable (15) on it, which is rotatably mounted on the foot (146) and on which the laser housing (23) is mounted or can be mounted without tools. Construction laser according to claim 1, characterized in that the laser housing (2) comprises a watertight housing (4) composed of a hood (5) open at the bottom and a bottom (6) closing the opening (73), wherein a seal {8} is provided between the bottom {6} and the hood (5). Construction laser according to claim 1 or 2, characterized in that the construction laser {1} comprises fastening means for fastening the laser housing {2} to the chassis (33. Construction laser according to claim 3, characterized in that the aforementioned fastening means magnetic fasteners and/or a snap connection and/or a screw connection and/or the like. Construction laser according to claim 4, characterized in that the magnetic fastening means are formed by one or more magnets (19) in the bottom (6) of the housing (43 and/or in the turntable (15) of the chassis (31 or that). acorn magnets (19) are provided in the bottom (6) or in the turntable (15) while the other of both is made of a material that can be magnetically attracted, Construction laser according to any one of the preceding claims, characterized in that a window (103) is provided centrally in the bottom {6} of the laser housing {2} for a laser beam corresponding to the perpendicular of the laser housing {2} for projecting a plumb point. on the site where the construction laser {1} is set up. Construction laser according to claim 6, characterized in that the chassis (3) is provided with a central passage {Sb} which, in the mounted state of the laser housing {2) on the chassis {3}, extends in line with the above-mentioned perpendicular. of the laser housing {2}. Construction laser according to claim 6 or 7, characterized in that the bottom {6) of the housing (4} is provided with a central passage (9a) for the laser beam, which passage {9a} is closed at the top by the aforementioned window (10) for waterproofing the housing, construction laser according to claim 8, characterized in that said passage (9a) has an internal screw thread for fixing the laser housing {2} on another support (3) provided is from a screw bolt. Construction laser according to claim 7, characterized in that the central passage {9b} of the base (3) is provided with an internal screw thread for mounting on a tripod with a screw bolt, with or without the laser housing (2) mounted thereon, 11 . ” Construction laser according to one of the preceding claims, characterized in that the chassis (3) is provided with a {fine adjustment {20} for rotating the turntable (15) about its axis of rotation (X-X'}. 12. Construction laser according to any one of the preceding claims, characterized in that when the laser housing {2} is mounted on the chassis (3), the rotary axis (X-X"} of the turntable (15) and of the laser housing ( 2) coincides with the central perpendicular of the construction laser 35 {1}.