FR2699272A1 - Building construction level checking instrument - uses laser diode to generate parallel beam which is used to produce continuous trace defining plane to be levelled - Google Patents

Abstract

The levelling system has a housing (1) which can rest on two plates (3). The plates are connected to the housing (1) so that they can be adjusted around a fixed pin by two screws. A parallel light beam is generated by a laser diode. A mirror rotated by a motor, reflects the beam; by remanence, the luminous point produces a continuous which defines the plane. Mercury switches control lamps which indicate the inclination of the housing (1) with respect to the plate (3). A 6 volt rechargeable supplies a transistor which supplies the diode and the motor. USE/ADVANTAGE - Visualising horizontal and vertical levels for public works, construction. Autonomous and manually controllable.

Description

DESCRIPTION
The present invention consists in visualizing horizontal and vertical planes on walls, floors, ceilings or other surfaces, mainly for building, public works and possibly other applications.

 Usually, spirit levels and plumb bob are used to check horizontality and verticality. These current methods remain imprecise, give information on a limited area and require repeated handling to cover a large area.

 This invention overcomes these drawbacks. It consists of a housing (1) surmounted by a transparent cover (2). This housing (1) can rest on two plates (3). Each plate (3) is connected to the housing (1) in an articulated and adjustable manner by two knobs (13) and a fixed foot (12).

 Each plate (3) serves as a support; one for the horizontal line, one for the vertical line.

 The invention visualizes horizontal and vertical planes, obtained by a parallel light source (7), generated by a laser diode (8). A mirror (6), fixed on the axis of a motor (20) at speed controlled by a potentiometer (21), reflects the light source (7). The axis of the motor is perpendicular to the parallel light ray (7). By remanence, the point (9) produced by this light source (7), turns and draws a continuous line (10) defining the horizontal or vertical planes. The precision of the adjustment of the horizontality or the verticality is obtained by turning the knobs (13) varying the inclination of the housing (1) relative to the support plate (3). The direction of rotation (16) of the knobs (13) is indicated by lamps (29) associated with arrows. These lamps (29) are controlled by mercury switches (25). For each plane, when none of the lamps (29) is on, the horizontality or the verticality are therefore obtained. The mercury switches (25) which control the lamps (29), also control a transistor (23) used as a switch which then supplies the laser diode (8) and the motor (20). The system is also equipped with a test switch (22) forcing the supply of the laser diode (8) and the motor (20).

All of the electrical equipment of the invention is powered by a 6-volt battery (17), rechargeable by a plug (18).

The accompanying drawings illustrate the invention:
Figure 1 shows an overview of the system.

 The system is in the form of a box (1) surmounted by a transparent cover (2). This housing is connected in an articulated and adjustable manner to two plates (3), serving as support, one below for horizontal use, and one at the rear for vertical use. The various controls and indications are placed on the front face (4) of the housing (1).

 Figure 2 shows the principle of viewing the plans.

 The rotation (5) of a mirror (6), reflecting a visible parallel light source (7) produced by a laser diode (8), produces a light point (9) which, put in rotation allows the eye to perceive a continuous line (10) by remanence. This system leaves a little annoying blind spot (11).

 Figure 3 shows the principle of manual adjustment.

 The correct adjustment of horizontality or verticality is done by two axes (X) and (Y) perpendicular. A fixed foot (12) is located at the intersection. A wheel (13), with a thread on the right (14), in the housing (1) and a thread on the left (15) in the plate (3) allows by rotation (16) to vary the inclination of the housing (1) relative to the plate (3).

 Figure 4 shows the electrical diagram.

 Power is supplied by a 6 Volt battery (17), rechargeable by a plug (18). A first switch (19) cuts off the general supply.

The potentiometer (21) can supply the laser diode (8) and the variable speed motor (20) by three ways:
-A test switch (22) for a forced supply,
-and two channels called horizontal (H) and vertical (V) respectively.

 Each of these two channels consists of a transistor (23), the base of which is biased by a resistor (24). The marked elements (Fig. 5) each check the correct position of an axis.

Two of these elements therefore allow the verification of the correct position of a plane. When at least one of these two elements lets current flow (I), the transistor (23) is no longer polarized and the supply of the laser diode (8) and of the motor (20) is not carried out.

 Figure 5 shows the principle of checking the correct position of an axis.

 Verification of the inclination of an axis (X) is obtained by two mercury switches (25), consisting of a glass capsule (26), two metal rods (27) of different lengths and a drop mercury (28) which can electrically connect the two rods. Each mercury switch (25) can light the lamps (29) respectively. In the correct position, neither of the two contacts is made, the two lamps (29) are off and no current (I) flows. If one leans to one side or the other, one of these two lamps (29) is on and a current (I) flows.

 Figure 6 shows the use in horizontal mode.

 To draw a horizontal plane in a room, position the housing at the desired height (30), the test switch (22) at the top to have a permanent emission even if the position is not perfectly horizontal. Lower the test switch (22) and adjust by turning the knobs (13) in the directions indicated by the lamps (29). Once the four lamps are off, the light source (7) turns on. Rotate it at the desired speed using the potentiometer (21) to obtain the visualization of a solid line (10).

 Figure 7 shows the use in vertical mode.

 To draw a vertical plane displayed by a solid line (10), tilt the housing (1) backwards, the test switch (22) positioned at the top to have a permanent emission even if the position is not perfectly vertical. Lower the test switch (22) and adjust by turning the knobs (13) in the directions indicated by the lamps (29). Once the four lamps (29) are off, the parallel light source (7) turns on. Rotate it at the desired speed using the potentiometer (21) to obtain the visualization of a solid line (10).

Claims (1)

 1) Device for viewing vertical or horizontal planes on walls, floors, ceilings or other surfaces, characterized in that it comprises: a housing (1) which can rest on two plates (3), connected to the housing (1) of articulated and adjustable by two knobs (13) and a fixed foot (12); a parallel light source (7), generated by a laser diode (8); a mirror (6), rotated (5) by a motor (20), reflecting the light source (7) and by remanence, the light point (9) producing a continuous line (10) defining the plane; mercury switches (25) controlling lamps (29) inclination indicators of the housing (1) relative to the support plate (3) and also driving a transistor (23) which supplies the laser diode (8) and the motor (20); a 6-volt battery (17), rechargeable.