FR3125118A1 - Measuring device for the implementation of plasterboard - Google Patents

Abstract

The invention relates to a device for determining a distance (AB) between a first point (A) and a second point (B). More specifically, this device comprises a housing (1) provided with a first pointing means (11) of the first point (A) and a second pointing means (12) of the second point (B), a first means for determining a first distance (AC) between the first point (A) and the point (C), a second means for determining a second distance (BC) between the second point (B) and the point (C), means (6) for adjusting an angle (α) making it possible to adjust the angle formed between the first and second distances in order to point at the same time the first and second points by means respectively of the first and second pointing means , means (15) for determining said angle (α), the first pointing means (11) of the first point (A) being movable relative to the second pointing means (12) of the second point (B) when adjustment of the angle (α) by the adjustment means (6). Abstract Figure: [Fig. 1]

Description

Measuring device for the implementation of plasterboard

Technical field of the invention

The present invention generally relates to a device for assisting in taking measurements. More specifically, although not exclusively, this invention relates to a measuring device for the implementation of plasterboard commonly called plasterboard

Technical background

Nowadays, the insulation of walls for buildings (industrial, suburban or buildings) is carried out using plasterboard (also called BA13 or plasterboard). These plates are screwed onto metal rails which themselves are screwed to the walls or ceiling using screws and dowels. To achieve the insulation, an insulator of the glass wool type, for example, is generally placed between the metal rails, against the wall or ceiling and then enclosed by the plasterboards once the latter are screwed onto the rails.

These operations are long and tedious. Especially when the operator has to fix the metal rail to the ceiling. Indeed, all the ducts passing through the ceiling via holes provided, it is customary to adjust the length of the rails, for example when the rail is located between two holes or between a hole and the beginning of a partition. . For all these operations on the ceiling, the operator must go up on a stair climber to take the necessary length of rail, get off the stair climber, transfer the length to the rail to cut it to the right length, go up on the stair climber to fix the rail with a screwdriver by means of screws and plugs on the ceiling.

There are also laser rangefinders on the market, but with only a single pointing beam. To take a measurement between two points, or more generally two zones, the operator points to a first point, validates the first point, then points to the second point and validates it. To have the distance between these two points, the operator must also take a measurement of a third point located at 90 degrees from the axis connecting the two points. Without this third measurement, the operator is unable to know the angle between the two distances connecting the measuring device and the two points whose distance must be measured between them, and therefore to calculate it. All this is tedious in terms of implementation time

It would therefore be advantageous to provide a tool to the operator that mitigates the cited problems, and more particularly to limit the number of operator operations in order to save implementation time.

More particularly, the present invention relates to a device for determining a length between a first and a second point, said device comprising

a first pointing means of the first point

a second pointing means of the second point

a first means for determining a first distance between the first point and the first pointing means

a second means for determining a second distance le between the second point and the second pointing means

means for adjusting an angle formed between the first and second pointing means

means for determining said angle,

the first pointing means of the first point being movable relative to the second pointing means of the second point when adjusting the angle by the angle adjustment means formed between the first and second pointing means.

According to an advantageous embodiment of the invention, the first and second pointing means are lasers

According to an advantageous embodiment of the invention, the means for determining the first and second distances are of the laser ranging type

According to an advantageous embodiment of the invention, the means for adjusting the angle formed between the first and second pointing means is an angle sensor or a gyroscopic sensor

More specifically, the adjustment means is secured to a body of the second pointing means, a rotation in a first direction of said adjustment means causing a rotation of the second pointing means in the same direction as well as a rotation of the first pointing means 11 in a second direction, opposite to said first direction.

Advantageously, each first and second pointing means respectively comprises a first and a second toothed wheel, each toothed wheel having an identical pitch between them and adapted to conform to each other, the rotation of the first pointing means by said second means of pointing being achieved by means of said first and second toothed wheels when the adjustment means is rotated.

Also, the angle sensor is secured to the second pointing means and adapted to return a rotation angle value of said second pointing means when the adjustment means is rotated,

Brief description of figures

Embodiments of the invention will now be described by way of example only with reference to the accompanying drawings in which:

There is a schematic view of the device according to the invention

There is another schematic view of the device according to the invention

There illustrates the operator when using the device according to the invention

There illustrates an alternative embodiment of the device

Figures 5 to 10 illustrate another embodiment device according to the invention

Claims (8)

Device for determining a distance (AB) between a first point (A) and a second point (B) characterized in that it comprises:
- a housing (1) provided with a first pointing means (11) of the first point (A) and a second pointing means (12) of the second point (B), the first and second pointing means being arranged substantially at a point (C) within said housing;
- a first means for determining a first distance (AC) between the first point (A) and the point (C);
- a second means for determining a second distance (BC) between the second point (B) and the point (C);
- means (6) for adjusting an angle (α) making it possible to adjust the angle formed between the first and second distances in order to point at the same time the first and second points by means respectively of the first and second means of pointing;
- means (15) for determining said angle (α);
the first pointing means (11) of the first point (A) being movable relative to the second pointing means (12) of the second point (B) during adjustment of the angle (α) by the adjustment means (6). Device according to Claim 1, characterized in that the first and second pointing means (11, 12) respectively comprise a first and second pointing device (118, 128) of the laser type. Device according to any one of Claims 1 to 2, characterized in that the means for determining the first and second distances are of the laser telemetry type. Device according to any one of Claims 1 to 3, characterized in that the means (15) for determining the angle (α) formed between the first and second pointing means is an angle sensor. Device according to any one of Claims 1 to 3, characterized in that the means (15) for determining the angle formed between the first and second pointing means is a gyroscopic sensor Device according to any one of Claims 1 to 5, characterized in that the adjustment means (6) is integral with a body (121) of the second pointing means (12), a rotation in a first direction of the said means of adjustment (6) causing a rotation of the second pointing means (12) in the same direction as well as a rotation of the first pointing means (11) in a second direction, opposite to said first direction. Device according to Claim 6, characterized in that each first and second pointing means (11, 12) respectively comprises a first and a second notched wheel (114, 124), each notched wheel having an identical pitch between them and adapted to conform to each other, the rotation of the first pointing means (11) by the said second pointing means (12) being carried out by means of the said first and second toothed wheels (114, 124) when the adjusting means (6) is set in rotation. Device according to any one of Claims 1 to 7, characterized in that the angle sensor (15) is integral with the second pointing means (12) and adapted to return a rotation angle value of the said second pointing means ( 12) when the adjustment means (6) is rotated.