BE1027284B1 - MEASUREMENT DEVICE - Google Patents

Abstract

The present invention relates to a measuring device comprising a flat surface provided with a graduation along two perpendicular axes, and marked with at least one axis inclined by a determined angle with respect to said two perpendicular axes.

Description

MEASUREMENT DEVICE

[1] The present invention relates to a measuring device, in particular intended for measuring the lengths of tubular elements, or other profiles.

[2] It is well known to measure lengths or distances between two points using a graduated ruler. Other length measuring instruments exist, such as the caliper, instruments that use wave phenomena, such as lasers and others. However, in practice and especially on construction sites, the most commonly used measuring instrument is always the graduated ruler. This graduated rule usually takes the form of a folding rule, also called a folding rule, or a tape measure, preferably retractable.

[3] Particularly on a construction or installation site, any operator generally carries a "ruler", that is to say a foldable rule or a retractable tape measure. He can thus perform a length measurement at any time. Although generally easy, the determination of a length to be provided for a tubular element or other section can turn out to be more complicated, more particularly in the case of the installation of pipes of any kind or of support sections or the like, when it is a question of determining the length to be provided for an element inclined with respect to one and / or the other section or rectilinear element. In this case, it is usually necessary to calculate the precise length to be expected, based on the installation data. This operation takes time and is susceptible to errors. The operators will then prefer to work by approximation. It is obvious that these operations take time and that the result is not precise.

[4] The invention aims to facilitate these operations. It aims in particular to facilitate and accelerate the operations of determining a length to be provided for a tubular element or other profile inclined with respect to one and / or the other rectilinear section, in order to bypass an obstacle for example, such as a beam or pipe or other.

[5] It aims to further improve the precision of this kind of operation.

[6] The measuring device of the invention comprises a flat surface provided with a graduation along two perpendicular axes, and marked with several axes inclined at a determined angle with respect to said two perpendicular axes, said inclined axes being offset one by one. compared to others.

[7] Preferably, said surface may have axes inclined at 20 °, 30 °, 45 ° and / or 60 ° and / or 67.5 ° relative to one of the graduated axes.

[8] According to a preferred embodiment, the axes inclined at a determined angle with respect to one or the other of said perpendicular axes are also graduated.

[9] In order not to encumber the flat surface or at least one area thereof, the inclined axes start from different starting points distributed over the flat surface.

[10] It will be easily understood that when it comes for example to install pipes and in particular to bypass an obstacle, for example a beam or another pipe, by means of a pipe portion inclined relative to a first section of pipe or rectilinear section to join a second section of pipe or rectilinear section, generally parallel to the first, it is difficult to determine with good precision the length to be given to said inclined part. The device of the invention significantly facilitates this operation. In fact, the operator determines how far the second section must be separated from the first. Then, he draws the sections on said flat surface of the device of the invention or deposits sections on said flat surface, in two parallel directions spaced apart from the desired bypass distance and he determines either by measurement with his meter or by reading on the line. 'corresponding graduated inclined axis marked on said flat surface the length of the inclined section. This determination is fairly simple to make and quick to exercise. He can then cut a section of pipe / profile to the desired length and install it.

[11] It is of course advantageous to make the inclined section correspond to an inclined axis marked on the flat surface of the measuring device. If it is a particular angle of inclination, not marked on said surface, one can draw an inclined axis of said particular angle of inclination with respect to the perpendicular axes and then proceed as above. In order to facilitate this operation, it is also possible to provide for the marking on said flat surface of a protractor, in particular on at least one of the perpendicular axes.

[12] In order to facilitate the immobilization of the pipe or the section to be cut in particular, a section or a perforated rail can also be provided, which generally follows the shape of a U which rests by its core on the flat surface.

[13] In order to facilitate cutting to length of said pipe section, it is also possible to provide a bracket which essentially follows the shape of an omega (M) and which is adapted to the external dimensions and shape of said pipe or of said section. and which comprises an extension on each side of the stirrup, the two extensions being oriented along the same longitudinal axis and said stirrup comprising at least one edge or an outer edge extending along a plane perpendicular to the transverse axis. It is understood that in use said transverse axis of the yoke corresponds to the longitudinal axis of the pipe or of the section to be cut or is oriented essentially parallel to the longitudinal axis of the pipe or of the section to be cut.

[14] Furthermore, one can also provide a stop, preferably adjustable along one of the axes of the flat surface, in order to facilitate measurements or readings on the flat surface.

[15] The use of the device of the invention significantly reduces the time required to carry out, for example, an obstacle avoidance and thus makes it possible to reduce site costs which are an essential factor in the cost of technical installations.

[16] In a preferred embodiment, the flat surface consists of a printed sheet which can be arranged on a flat support, such as a floor, table or other hard flat surface. This sheet may consist of a sheet of resistant paper, optionally plasticized or treated to be resistant to tears and / or soiling specific to construction sites. Said sheet may also consist of a sheet of synthetic material optionally reinforced with fibers.

[17] The advantage is that said sheet can be rolled up and easily transported and stored, for example in a cardboard tube or the like. It is inexpensive and can be replaced easily at low cost when it is damaged or when it has so much dirt or drawn markings that it becomes difficult to read.

[18] It is understood that in the case of a transportable sheet 5, care should be taken to choose a material which is resistant to expansion and contraction, in particular thermal, so as not to distort the measurements.

[19] Advantageously, the sheet may include a graduation of the graph paper type.

[20] Advantageously, in order to further facilitate the work of the operators, the inclined axes can be marked on the flat surface in different colors. This allows you to assign a color code to the various tilt angles.

[21] According to another embodiment, the flat surface may also consist of a rigid material, such as a wooden plate, of synthetic material, of a metallic material or the like.

[22] It is understood that the device of the invention can also be used to take measurements and / or facilitate the cutting or cutting of elements used in interior or exterior carpentry, or of flat parts, such as tiles or panels. covering such as plasterboard or other panels.

[23] The invention will be described in more detail below, in support of the figures in which:

[24] Figure 1 is a view of an example of a measuring device according to the invention;

[25] Figure 2 is a perspective view of a bracket intended to facilitate sectioning to size of a pipe; and

[26] Figure 3 is a perspective view of a support rail for the profile or pipe to be measured.

[27] In the figures, identical reference numbers refer to identical or similar elements.

[28] In Figure 1, there is a sheet printed as graph paper 1 which may be made of reinforced paper, plasticized or otherwise treated to resist soiling and tearing. Said sheet 1 is unrolled on a flat surface, such as a table for example. It is graduated along two perpendicular axes 3 and 5. Furthermore, said sheet is provided with four inclined axes 7, 9, 11, 13 and 15. Axis 7 is inclined 45 ° with respect to axis 3; axis 9 is inclined 30 ° relative to axis 3; axis 11 is inclined 30 ° relative to axis 3; the axis 13 is inclined by 20 ° with respect to the axis 3 and the axis 15 is inclined by 60 ° with respect to the axis 3. One can, of course also provide other inclined axes of other angles inclination with respect to axis 3, in particular for example an angle of 67.5) which is an angle common in plumbing.

[29] When the flat surface consists of a surface which allows drawing in pencil or the like, the operator can draw axes inclined with respect to axis 3 according to his needs. For this purpose, the flat surface can also be provided with a printed protractor, thus facilitating the drawing of additional axes.

[30] Advantageously, said axes are also graduated in order to facilitate the taking of measurements. Said axes can also be printed in a color code thus facilitating the choice by the operator of the desired inclination axis.

[31] The measuring device of the invention may also include a caliper 19 as shown in Figure 2 which essentially takes the form of an omega. As can be seen in the figure, the stirrup comprises a part 21 which adapts to the section to be cut, in this case a tubular pipe, by partially enveloping it from above, and two extensions 23 and 25, in the alignment with each other.

The stirrup has an edge or a ridge 27 which is located in a plane itself essentially perpendicular to the transverse axis 29. It will easily be understood that this transverse axis corresponds to or is parallel to the axis of the profile to be measured in sight. to section it.

[32] It is also possible to provide a support profile which facilitates the immobilization of the pipe or profile to be cut. Such a profile has been shown in FIG. 3. As can be seen, it is advantageously perforated in order to facilitate the reading of graduations on the support.

[33] Example:

[34] Let us take the example of an installation of pipes suspended from a ceiling, in which it is necessary to shift a first section of pipe by a determined distance to bypass a beam, and thus join by means of a corner section a second section essentially parallel to the first.

[35] The difficulty lies in determining the length to be given to the corner section in order to correctly join the first section of pipe to the second. The distance of the pipe offset is determined by the height of the beam to be bypassed.

[36] The operator places a first piece of pipe 31 along an axis or parallel to an axis of the millimeter sheet and places a second piece of pipe 35 offset from the first 31, parallel to the latter and that of the offset distance 39 desired in the installation. Preferably, the ends of the first 31 and second 35 sections in contact with the corner section 41 are provided with an angular element, respectively 33 and 37. The operator can now determine with the aid of one meter or by reading on the corresponding graduated inclined axis printed 7 (or if applicable drawn) on sheet 1, the length to be given to the angle section 41.

[37] In order to facilitate the positioning of the first end of pipe, one can provide a stop, preferably adjustable.

[38] In order to facilitate the sectioning of the pipe to the right length, the operator can place the bracket 19 described above on the pipe to be sectioned 41 and position it so that he can mark the line with a line. cutting section. To do this, it suffices to match the ridge 27 on the millimeter sheet to the desired length of the pipe section and follow the ridge 27 with a pencil or other marker to indicate the cut section on the pipe section 41. If necessary, he can still rotate the pipe on itself in order to allow marking of the entire circumference of the pipe and thus increase the precision of the sectioning. The operator can now cut the corner section 41 to the desired length and place it.

[39] Particularly in the case of pipes, we know that they tend to roll by pivoting on their axis, thus making any measurement or sectioning difficult. In order to facilitate the immobilization of this pipe, it is possible to provide a preferably U-shaped profile resting by its core on the flat surface. The pipe can then be placed longitudinally on this section without it moving transversely. This profile is preferably perforated in order to lighten it but also to allow the reading of any graduations through the core.

[40] It is of course understood that instead of placing elements of conduct on the millimeter sheet, we can also draw them on said sheet (see 35). [4I] Note that the inclined axes marked on the flat surface or the printed millimeter sheet are arranged in order to prevent the various axes from meeting in too narrow an area; which can make reading difficult. Care will be taken to sufficiently offset the various axes with respect to each other.

[42] It should be noted in particular that the use of the device of the invention significantly reduces the time required to perform, for example, an obstacle avoidance. This makes it possible to significantly reduce site costs which are an essential cost factor in the case of technical installations.

[43] It was found on site that the use of the measuring device according to the invention indeed makes it possible to measure the lengths of tubes or other profiles with more precision and this very quickly, in particular in the case of a length of tube or profile inclined with respect to another.

[44] Furthermore, the device of the invention can also be used to check the angle of a bent tube for example. Indeed, when it is necessary to bend a tube on site, we are often limited in the type of equipment available and very often, the bending angle cannot be easily verified.

The device of the invention makes it easy to check the bending angle simply by reading on the flat surface.

The operator can then correct the bend as needed.

Claims (11)

Claims (amended as of October 30, 2019) 1. Measuring device comprising a flat surface (1) provided with a graduation along two perpendicular axes (3,5), and marked with several inclined axes (7,9,11,13,15) at an angle determined by relative to said two perpendicular axes, said inclined axes being offset relative to each other. 2. Device according to claim 1 characterized in that said flat surface (1) comprises axes inclined at 20 °, 30 °, 45 ° and / or 60 ° and / or 67.5 ° relative to one of the axes graduates. 3. Device according to one of claims 1 or 2 characterized in that said inclined axes (7,9,11,13,15) at an angle determined with respect to one or the other of said perpendicular axes (3 , 5) are also graduated. 4. Device according to one of the preceding claims, characterized in that it comprises a marking on said flat surface of an angle protractor (17), in particular on at least one of the perpendicular axes. 5. Device according to one of the preceding claims characterized in that it comprises a caliper (19) which essentially matches the shape of an omega (M) and which is adapted to the dimensions and to the external shape of said pipe or of said section to be cut and which comprises an extension (23,25) on each side of the stirrup, the two extensions (23,25) being oriented along the same longitudinal axis and said stirrup comprising at least one edge or one outer edge (27 ) extending in a plane perpendicular to the transverse axis (29). 6. Device according to one of the preceding claims characterized in that it comprises a support rail (Fig.3), preferably perforated, to facilitate the immobilization of said pipe or said section to be cut. 7. Device according to one of the preceding claims characterized in that the flat surface (1) consists of a printed sheet which can be arranged on a flat support. 8. Device according to claim 7 characterized in that said sheet may consist of a sheet of resistant paper, optionally plasticized or treated to be resistant to tears and / or soiling specific to construction sites, or of a sheet of synthetic material optionally. reinforced with natural or synthetic fibers. 9. Device according to the preceding claims, characterized in that said flat surface (1) comprises a graduation of the graph paper type. 10. Device according to one of the preceding claims characterized in that the inclined axes (7,9,11,13, 15) are marked on the flat surface (1) in different colors. 11. Method for determining the length to be given to tubular elements or other profiles inclined relative to a first section of tubular element (31) or other rectilinear section, to join a second section (35) parallel to the first section (31) ), characterized in that it is determined by what distance (39) must be separated the second section (35) from the first (31), in that the sections (31,35) are drawn on said flat surface (1) of the device of one of the preceding claims or sections (31, 35) are deposited on said flat surface (1), in two parallel directions spaced apart by said desired distance (39) and determined either by measurement with a meter or by reading on the corresponding graduated inclined axis (7,9,11,13, 15) marked on said flat surface (1) the length of the inclined section (41); and in that a tubular element (41) or other profile is cut to the desired length to install it in an inclined manner between the first (31) and second (35) sections.