IT201900004675U1 - LASER TELEMETER WITH PERMANENT ROTARY METERING ORGAN - Google Patents

Description

Description of a utility model?

DESCRIPTION

The present invention relates to a laser rangefinder according to the preamble of the main claim.

How ? known, a laser rangefinder? a measuring instrument that allows, through the generation of a laser beam that is directed towards a surface and the reflection of this beam with consequent detection of the time of its "return" to the rangefinder, to measure the distance between the area in which it is made the measurement (position of the rangefinder) and said surface. The rangefinder can? be used "freehand" (ie supported by a person who performs the measurement) or can? be supported in the area where the measurement is made by a suitable support, for example an autonomous tripod.

The use of the laser rangefinder offers the possibility? to obtain precision measurements of the distance (even relatively high) between two points (the one defined by the measurement area and the one defined by the surface hit by the laser beam).

The laser rangefinder usually comprises a body generally having a shape at least associable with that of a right prism and having a plurality of shapes. of portions or faces. A laser beam is emitted from one of the latter so in s? known by a special electric / electronic circuit contained in said body. The laser beam, after hitting the surface on which you want to measure the distance, is reflected towards the same face or portion from which? been issued, where? there is a detector which, upon receiving the reflected laser beam, generates an electrical signal which is processed by the circuit inside the body of the rangefinder to define the distance of the surface from the measurement area or point.

The data detected from the distance is then shown on a screen present on another portion or face of the body of the laser rangefinder.

The capacity minimum measurement of rangefinders? however limited, usually greater than 10 cm. Furthermore, regardless of the distance, known rangefinders are not suitable for measuring lengths that are not defined, at least at one end, by a surface on which the emitted laser beam can be reflected.

These two limitations make the known range finders unsuitable for measuring the length of surfaces or sides of thin bodies and / or without a raised edge, such as boxes or crates, for which can? be useful or necessary to be able or to have to calculate their surfaces or their volume. Consider, for example, the importance of knowing the volume of goods to be transported for a freight forwarder. The calculation of these volumes and surfaces can? be carried out by the software, commonly found in rangefinders, which processes the measurements made with laser beams. If, however, one of the sides to be measured has dimensions (length) less than the capacity? minimum measurement of the rangefinder or the body to be measured (for example a box) has no protruding edges, the rangefinder does not? able to acquire the relative measure and therefore not? It is possible to calculate its surface or volume.

WO2018177570 discloses a laser rangefinder comprising a housing for an accessory device capable of carrying out further measurements in addition to that obtainable by means of the laser beam. Among these accessory devices, interchangeable with each other, adapted to be removably associated with the rangefinder, there is? an accessory device comprising a wheel which, arranged on a surface and moved along it, allows to measure the length of the surface section covered or the (linear) length of the surface itself.

In this known solution, as mentioned, the device for measuring the length of the surface (with which the device itself is in contact)? removably associated with the body of the rangefinder cos? to allow to link to the latter other measuring devices, including non-linear ones, such as temperature, humidity? CO2 etc .; for this reason, said body and the accessory device are specially shaped to be removably coupled both mechanically and electrically to allow the usual measurement circuit of the rangefinder to detect the measurement made by the additional device.

The above therefore involves the provision of mechanical and electrical coupling members on the rangefinder and on the aforementioned accessory device, which entails a consequent difficulty? construction of the rangefinder and / or accessory device in order to protect the coupling member from dust and / or atmospheric agents and / or water.

Purpose of the present invention? that of offering a measuring device using a laser beam to carry out the latter, or a laser rangefinder permanently provided with a second measuring member, and which does not have the drawbacks of the known solutions, in particular the one referred to in WO2018177570 indicated above.

Another purpose? to offer a laser rangefinder that is easy to use and that can allow linear measurements even below 10 cm, capacity? usual minimum of laser rangefinders.

An additional purpose? to offer a laser rangefinder that is not subject to malfunctions due, as in the known solution of the aforementioned international patent application, to the accidental introduction of dust, water, humidity, sand or other elements that can easily be found on a construction site where the object of the present invention can? be advantageously used.

These and other objects which will be evident to the skilled in the art are achieved by a laser rangefinder according to the appended claims. For a better understanding of the present invention, the following drawings are attached purely by way of non-limiting example, in which:

Figure 1 shows a front view of a laser rangefinder obtained according to the present invention;

Figure 2 shows a front view of a variant of the rangefinder according to the invention; And

figure 3 shows a side view of the laser rangefinder of figure 2.

With reference to the aforementioned figures, in them? shown a laser rangefinder 1 having a body or case 2 substantially in the shape of a parallelepiped. This body has a front face 3 provided with a screen 4 for reading the measurement data and a user interface 5 (provided with usual and known buttons for controlling and using the telemeter).

From a face 6 (upper, with reference to Figures 1 and 2) is emitted, so in s? known, a laser beam R generated in an equally known manner by a diode associated with an electric / electronic circuit placed inside the body or case 2 (and not further described). This ray R, after hitting a surface whose distance from the measuring point where the rangefinder is to be measured, is reflected (ray E in figure 1) and detected in s? known by a photodiode not shown present in correspondence with the upper face 6, located adjacent to the exit hole of the laser beam. The detector or photodiode generates an electrical signal that the above indicated electric / electronic circuit processes and transforms into a measurement signal and the relative data is shown on the screen 4.

To rangefinder 1? associated with a device 8 for measuring the length of a surface on which said measuring device is moved in contact. The section covered by the device 8 on said surface allows the length of the surface to be measured.

Pi? in particular, at an angle 10 of adjacent portions or sides 11 and 12, of the housing or body 2 of the rangefinder, preferably not affected by the emission of the laser beam,? permanently disposed a small wheel 15 (for example about 20 mm in diameter) defining the measuring device 8. The wheel 15? suitably knurled on its circumference to increase adherence and avoid slippage when placed in contact and rolls on a smooth surface (not shown) whose length measurement is to be obtained.

The axis of rotation 18 of the wheel 15? positioned so that an arc portion of the circumference of the wheel (corresponding to an angle of approximately 150? -180?) slightly protrudes at the corner 10 of the housing or body 2, between sides 11 and 12.

The axis of rotation 18? retained in the body 2 and? solidly connected to the wheel 15 and cooperates with an encoder (not shown, placed inside the body 2, or other equivalent rotation measuring device) which can? therefore calculate with extreme precision any length, starting from 1 mm upwards, traveled by the wheel when it is rolled along a side or surface (straight or curved) of a body to be measured.

Such an encoder? connected to the electric / electronic circuit mentioned above, which processes the received signal, and determines the length traveled by the wheel, displaying the result on the screen 4

On face 3 of the body and case 2? place a button 19 through which? You can activate the measurement made with the wheel. The measuring function via the wheel 15? alternative to the measurement carried out with laser beams, as with its activation the measurement with laser beams is temporarily excluded.

The measurement detected by the encoder? displayed continuously on the screen 4 of the rangefinder 1 and when at the end of the measurement the wheel 15 stops, by pressing a button between those cumulatively indicated with 5 the measurement? acquired by the software or control algorithm and integrated operation of the rangefinder, which algorithm can? combine it with other measurements acquired, either by means of a wheel or with a laser beam, and then calculate perimeters, surfaces and volumes.

Preferably and advantageously the results of the measurements obtained both with the wheel and with the laser beam R of the various sides of the body to be measured are highlighted on different lines of the screen 4 and stored in order to be processed.

Advantageously, once acquired, a measurement, independently obtained by means of a wheel 15 or by means of a laser beam R, can? be used by the measurement software of the rangefinder 1, making cos? It is possible to process the measurement obtained with the wheel, for example of a short side or without a striking surface at its end, with the measurement of the other sides obtained with the use of the laser beam.

The present solution which provides that the wheel is permanently positioned and integrated in the housing 2 of the rangefinder 1 advantageously differentiates the present invention from WO2018177570 where? described a wheel that is part of an accessory device, removable, insertable and disconnectable at one end? housing by mechanical coupling (for example bayonet or latching). This accessory device, being removable, allows it to be interchangeable with other accessory devices that can provide further measurement functions, even non-linear ones, regardless of what? by the presence of the wheel, such as temperature, humidity, CO2, etc.

However, the advantages of such removable and interchangeable devices, which can offer various information, are for? thwarted by the ease? what mechanical connection? for example the graft? gets dirty or becomes clogged with dust, sand, cement normally present in a construction site where rangefinders are often used, making the device very delicate and often useless. Furthermore, ? note the ease? to lose, misplace the accessory devices during their transport or use in untidy environments (such as the work environments of construction sites) and where there are numerous workers, each with their own tools, even in small spaces. All of this? ? avoided with the compact and monobloc solution described above.

Thanks to the present invention which provides a wheel 15 permanently integrated in the housing 2 of the rangefinder, connected to the electric / electronic circuit and to the software already? present in the rangefinder, and can be activated / deactivated using a special dedicated button 19, allowing to measure even very short lengths not detectable by the laser beam and guarantees a precise measurement, obtained with extreme ease, eliminating the risks and disadvantages indicated above for the devices removable and mechanically connected and interchangeable accessories of the state of the art solution.

According to a variant of the invention shown in Figures 2 and 3, in order to guide the movement of the wheel 15 in the correct direction along an edge of an object to be measured (for example the free side of a box), perpendicular to the axis 18 of the wheel and suitably pivoted in a point 21 of a face 3 of the housing 2 and close to the corner 10 from which the wheel itself protrudes,? provided an element 22 having a flat face 23 thereof facing the face 3 of the rangefinder; this element, suitably frictioned against face 3? manually rotatable and can? protrude from side 12 (bottom) of the case. The element 22 with its flat face 23 (orthogonal to the rotation axis 18 of the wheel) acts as a guide or stop for the wheel along said edge since said element slides on the edge itself while the wheel moves rolling on the next surface on the edge. There? it avoids undulations of the body 2 of the rangefinder on the free edge of the body to be measured, which would lengthen, distorting it, the measurement made.

In Figure 2, element 22? shown in a working position represented with a solid line; a rest position? represented in the same figure with dashed line.

The solutions described allow you to have the most advantages? indicated above in the use of the telemeter 1 according to the invention and realized according to the scope defined by the attached claims.

Claims (12)

CLAIMS 1. Laser rangefinder (1) comprising a housing or body (2) having a plurality of of portions or faces (3, 6, 11, 12) from one (6) of which a laser beam (R, E) is emitted and received towards and from a surface of which the distance from the measuring position must be measured or the position in which? placed the laser rangefinder (1), on another portion or face (3) a screen (4) being provided on which the measurement of this distance is displayed, characterized by the fact that the laser rangefinder (1) comprises a rotating measuring member (8) inseparably associated with such a body, and protruding at least partially from the body itself so? to allow its use to measure a length traveled by this rotating measuring member (8) in contact with a surface. 2. Laser rangefinder according to claim 1, characterized in that said rotating measuring member? a wheel (15) having an axis of rotation (18) retained within the body or case (2) and perpendicular to the face (3) where? the screen (4) is provided, said axis of rotation cooperating with a member for detecting the rotation of the axis itself, able to detect the measurement of the length traveled by the wheel (15). 3. Laser rangefinder according to claim 2, characterized in that said detection organ? an encoder. 4. Laser rangefinder according to claim 2, characterized in that said rotation detection member? connected to an electric and / or electronic circuit of the rangefinder (1) adapted to perform the measurement detected by the rotation detection organ along a surface as well as the distance obtained by the laser beam (R). 5. Laser range finder according to claim 4, characterized in that the length measurement detected by the rotation of the wheel (15) on a surface, once the operation is completed, can? be acquired and stored by an algorithm of the electric / electronic circuit of the rangefinder, the same that calculates the measurement obtained by means of the laser beam (R). 6. Laser rangefinder according to claim 2, characterized in that the measured measurement of the rotation detection member? shown on the screen of the body or case (2) of the rangefinder (1). 7. Laser rangefinder according to claim 2, characterized in that the linear measurement detected by the rotation detection member? combinable and what? elaborable with measurements obtained by laser beam (R) to obtain perimeters, surfaces and volumes. 8. Laser rangefinder according to claim 2, characterized in that the wheel (15) partially protrudes from the housing or body (2) of the rangefinder (1) at an angle (10), preferably blunt, of the latter present between two adjacent sides (11 and 12) of said body or case. 9. Laser rangefinder according to claim 8, characterized in that said wheel (15) protrudes from the case or body (2) for an arc of circumference comprised between 150? -180 ?. 10. Laser rangefinder according to claim 2, characterized in that said wheel (15) has a diameter of about 20 mm and a knurled surface. 11. Laser rangefinder according to claim 1, characterized in that it comprises a guide element (22) adapted to guide the movement of the rotating measuring member (8) on the edge of the surface whose length is to be measured. 12. Laser rangefinder according to claim 11, characterized in that said guide element (22)? an element having a flat face (23), suitably friction against the face (3) of the body (2), pivoted (at 21) on its face (3) of the body or case (2), said guide element (22 ) being able to rotate and protrude from a lower side (12) of the body or case (2) with its flat face (23) facing the face (3) of the body (2), said face (23) being perpendicular to the axis of rotation (18) of the wheel (15).