FR2949151A1 - Support's inner or outer radius measuring device for e.g. piece trimming application in building site, has scale maintained in position by knurled screw and housed partially below another scale so as to obtain superposed scales - Google Patents

Abstract

The device has a main body (7) in which a sensor (6) slides along a symmetric axis of two bent arms (8, 9) and is maintained in position by a knurled screw (1). The arms are displaced circularly with respect to the main body and are maintained in position by the screw. A scale (4) is integrated to the sensor. Another scale (5) is displaced parallely with respect to the sensor and housed partially below the former scale so as to obtain superposed scales. The latter scale is maintained in position by the screw.

Description

The present invention relates to a device making it possible to identify three key points of a radius in order to determine it. Traditionally, the recovery of a radius is carried out using a wire by gauging the curve of this one. Another solution is to use a cardboard and cut it to get as close as possible to the shape of the ray that is reproduced on paper and then through drawing to get the radius. These traditional techniques are sometimes very delicate, long to obtain and not very precise. The device according to the invention overcomes this disadvantage. It makes it possible to raise a radius by raising two information of this one: the rope and the arrow. It has two arms in gear connection for a perfect symmetrical displacement whose ends are two points; these two points form the rope. It further comprises a rectangle shaped piece very elongated and pointed at one end, called a probe for touching a point. The mediator of the isosceles triangle and passing through the point palpated is therefore the rope. The latter are connected (pivot for the arms and slide for the probe) relative to the main body, then two opposite calipers vernier type used to indicate the value of the arrow to the hundredth. The value of the rope is measured with a standard measuring tool type set but with borrows every 5 mm for a pre-calibration of the rope. The calculation of the radius is carried out using a programmed calculating machine, that is to say during the ignition of it are requested only two pieces of information which are the rope and the arrow. By validating these two entries, the value of the radius appears as a result to the nearest tenth. The accuracy of the result depends on the user's reading quality when taking measurements using the graduations. According to a particular embodiment: - A main body having two oblong holes for guiding the probe and one of the two strips. - Two arms in pivot connection, with axes, relative to the main body and themselves in gear connection. 45 - three knurled screws to hold the arms, feeler and vernier in position. The arms and the feeler have their pointed end in order to increase the accuracy of the values to be read. The accompanying drawings illustrate the invention. FIG. 2 represents, in front view of the device. With reference to this drawing, the tool comprises a main body (7) on which a feeler (6) is slidably connected; the slide connection being provided by two square-bladed screws sliding in an oblong hole 55 of the main body, this slide connection serving to move the probe. On this probe is fixed with the same screws serving the slide connection, a first graduation (4) giving a value in millimeters of the arrow. The position of the 60 probe is maintained by a knurled screw (1) when it is tightened. On the main body is another oblong hole parallel and of the same length as that used to move the probe. This second oblong hole is used to move a second graduation (5) 65 (graduated at 0.98 mm) which allows to give a precision to hundredths of a millimeter to the value of the arrow. This slide connection is made in the same way as for the sliding connection of the probe (two 70 square bolt screws see Figure 2 section B-B). this second graduation is held in position by a knurled screw 1) identical to that of the probe. Still on the main body are connected two arms (8) and (9); these rotate symmetrically with respect to the probe.

75 This displacement system is provided by a gear system directly machined on the arms (see Figure 2 section A-A). The position is maintained by a knurled screw (1) identical to that of the probe and the graduation. The arms and the probe have their pointed end 80 to indicate precisely the point of contact on the spoke to be raised. The more or less important displacement of the probe makes it possible to raise a radius inside or outside, in very tight or very congested places. A calculating machine and a set-up provided 85 are used to calculate the radius. The set is graduated in millimeters and has recesses or points of attachment in which are housed the points of the arms. These points allow to choose, beforehand, a safe rope because they are spaced every 90 mm. The calculating machine is programmed on a single function which makes it possible to calculate the following formula: (F / 2) + (C2 / 8F) In this formula the two unknowns are therefore C (string) and F (arrow) which will be measured on the 95 set and on the scale caliper type. As an indication, Figure 3 provides the various elements that constitute a radius. In Figures 4 and 5 the different possibilities to raise a radius with this tool (inner / outer radius). 0 -4- For an outer radius, first select a string applying the points on the surface of the radius then select one of the nearest calibration of the set by introducing the points in the points of attachment 105 (thus gives a precise rope); then flange the arms with the thumbscrew. The probe must then be aligned with both arms by positioning the tool on a flat support example 6; then flanged using the knurled screw. The graduation must be calibrated by aligning the zero with the displacement of the removable strip and then clamped with the knurled screw. The user can therefore feel the three-point radius by making contact with the arms and the probe. The values of the rope and the arrow are readable. For a radius 115 inside the steps are identical but in a different order. First, you must feel the radius by its three points (with the two arms for the arrow and the probe for the rope), calibrate the graduation, then align the arms and the probe on a flat support.

120 The value of the arrow and the string are readable.

Claims (9)

CLAIMS1) device for measuring the inner or outer radii characterized in that it comprises a main body (7) in which slides a probe (6) sliding on the axis of symmetry of the two arms (8) and (9) and maintained in position by a knurled screw (1). both arms move circularly with respect to the main body and held in position by a knurled screw (1); a first part of the opposite graduations (4) is integral with the feeler (6) and the second part (5) moves parallel to the feeler (6) and is housed halfway under the part (4) in order to have the graduations ( 4) and (5) superimposed, the same graduation portion (5) is held in position by a knurled screw (1). 2) Device according to claim 1 characterized in that the two arms (8) and (9) have their pointed end to record accurate information when in contact with the surfaces. 3) Device according to any one of the preceding claims is that one of the two oblong holes of the main body (7) allows the probe (6) to move so as to record multitudes of possibilities of arrows and allows to note inner and outer radiuses. 4) Device according to any one of the preceding claims is that the arms (8) and (9) have a bent shape in order to avoid possible obstacles. 5) Device according to claim 1 characterized in that the arms have a gear shape opposite their end to provide a circular and symmetrical movement. 40 6) Device according to claim 1 characterized in that the second oblong hole of the main body ( 7) makes it possible to move the second part of the graduation (5) in order to calibrate the probe (6) wherever it is. 45 7) Device according to claim 1 characterized in that the movements of the arms ( 8) and ( 9) allow to choose a favorable rope to good conditions to raise a radius. 8) Device according to claim 7 50 characterized in that the calibrated strip allows to choose a predefined and very precise rope closest to the rope to be raised. 9) Device according to claim 1 55 characterized in that the probe (6), the arms (8) and (9) and the graduated strip (5) can be clamped at any time and in a multitude of positions.