FR3014360A1 - DRAWING COMPASS WITH LOCKING POSITION - Google Patents

Abstract

The invention relates to a drawing compass (1) comprising two branches (2a, 2b) pivotally mounted about an axis of rotation (AA) substantially perpendicular to the plane in which the branches (2a, 2b) extend, a yoke (4) housing an articulation end of each branch (2a, 2b) and comprising at least one wing (4a, 4b) covering the articulation end of each branch (2a, 2b), a holding member (7) designed to hold the branches (2a, 2b) and the yoke (4) together, a locking device having a lever (5), characterized in that the lever (5) is rotatably mounted about the axis rotating (AA) said branches (2a, 2b) and is held together by the holding member (7) with the branches (2a, 2b) and the yoke (4), the lever (5) being designed to pass a rest position in which the rotational movement of the limbs (2a, 2b) is free, at a locking position in which the position of the limbs (2a, 2b) is blocked by applying a force on the flange (4a, 4b) of the yoke (4) so that the flange (4a, 4b) of the yoke (4) constrains each articulation end of the branches (2a , 2b) housed in the yoke (4).

Description

The invention relates to the field of drawing and technical drawing instruments and more particularly drawing compasses.

Conventionally, the tightening of the arms of the compass must be sufficiently loose to allow the adjustment of the spacing of the branches of the compass, and must also be sufficiently firm so that the branches do not part during the drawing of an arc. . However, in general, the tightening of the branches is such that, when one begins to trace, one exerts an effort on the tracing mine, so that the branch including this mine tends to deviate from its position, this which has the consequence that the circle drawn is neither precise nor regular. There are many ways to make it possible to lock the position of the branches relative to each other so that, during a tracing, the branches maintain a determined spacing. GB10452 is known, a compass conventionally comprising two branches each having an end housed in a yoke, the branches and the yoke being assembled by means of a screw / nut device. The adjustment of the spacing of the branches is achieved by the unscrewing of the screw and the locking of the spacing is achieved by screwing the screw, so that the screw comes to bear against a wing of the yoke which it - even crush the end of each branch. This type of locking has the disadvantage of being imprecise since the adjustment of the spacing and the locking position are made by the same means. Indeed, once the gap defined by unscrewing the screw, it is screwed to the latter to lock the defined gap. However, this operation is delicate since it often leads to the loss of the adjustment of the position. In addition, there is a significant risk of loss of the locking screw and maintenance, because if it is unscrewed completely, the latter can detach from the compass and detach all parts. Also known from EP1609621, a compass comprising the same conventional elements as those mentioned above and a locking device, wherein a lever is rotatably mounted on an axis parallel to the plane in which the branches extend. This lever comprises 35 at each free end a cam whose function is to exert in a locking position a force on the yoke. More particularly, there is a functional clearance between the cams and the yoke when the lever is in the rest position, which makes it possible to adjust the spacing of the branches conventionally by making them pivot about their axis of rotation, and when the lever is in the locking position, the cams bear against the yoke and exert a force on said yoke which transmits the force on the end of each branch, thus locking the spacing of the branches. However, this type of locking, although effective, requires a large number of parts, which increases the cost of manufacture and complicates the assembly of a compass equipped with such a lock.

The object of the invention is to remedy all or some of the aforementioned drawbacks. The invention relates to a drawing compass comprising two branches pivotally mounted about an axis of rotation substantially perpendicular to the plane in which the branches extend, a clevis housing an articulation end of each branch and comprising at least one wing covering the articulation end of each branch, a holding member designed to hold together the branches and the yoke, a locking device comprising a lever, characterized in that the lever is rotatably mounted about the axis of rotation of said branches and is held together by the holding member with the branches and the yoke, the lever being designed to move from a rest position in which the rotational movement of the branches is free, to a locking position in which the position of the branches is blocked by applying a force on the wing of the yoke so that the wing of the yoke forces each end of articulatio n branches housed in the screed. Thus, as the locking device according to the invention comprises a lever directly applying a force on the wing of the yoke and said lever is rotatably mounted on the same axis of rotation as the branches, the compass is more compact and present. a smaller number of parts compared to the state of the art previously described. Indeed, it is no longer necessary to have an interface between the lever and the yoke to transmit the forces, nor to provide a full articulation for the pivoting of the lever, and all the parts of the compass is maintained by a single holding member.

In addition, since the locking device is different from the member for holding the parts of the compass, there is no risk of losing parts in the unlocked position. According to another feature of the invention, the lever is adapted to move from the rest position to the lock position, the lever position change being reversible so that the lever is adapted to also move from the lock position. towards the rest position. Thus, simply by lowering or alternatively by simply raising the lever, the position of the branches is blocked and the spacing of the latter 10 is preserved during the drawing and it is possible to make several circles or circular arcs of identical radius. This action is easily achievable for example with the index when measuring a ray on a rule. Once the plot is made, the user can reposition the lever in the rest position to store it. According to one characteristic of the invention, the yoke comprises an outer surface on which is provided at least one ascending ramp and the lever comprises at least one stud configured to cooperate with said ramp. Thus, when the lever goes from the rest position to the locking position, the pin will move in the direction of rotation of the lever on the upward ramp, which will gradually increase the clamping forces applied to the yoke and the branches. Alternatively, the yoke comprises an outer surface on which is formed at least one pin and the lever comprises a ramp on a portion of an outer surface positioned opposite the yoke, the pin and the ramp being configured to cooperate with one another. with the other as mentioned above. According to another characteristic of the invention, two ramps are provided on the outer surface of the yoke, the two ramps being positioned symmetrically about the axis of rotation of the branches. The lever then advantageously comprises two pins, each stud cooperating with one of the two ramps. This configuration makes it possible, in comparison with a single-stud embodiment, to reduce the forces to be applied by each pin on its corresponding ramp. Of course, and as said above, an alternative according to the invention may consist in arranging two pins on the outer surface of the yoke and in positioning two symmetrical ramps on the lever arranged around the axis of rotation of the branches, each nipple being configured to cooperate with one of the ramps. According to another characteristic of the invention, the drawing compass comprises a friction flange interposed between the hinge ends of each branch housed in the yoke. Advantageously, the friction cheek comprises a central lumen intended to be traversed by the holding member. Thus, the clamping applies to both the branches and the clevis but also to the friction cheek. According to another characteristic of the invention, the drawing compass further comprises a protective washer fixedly mounted around the axis of rotation of the branches, the washer being designed to be positioned between the lever and the holding member. Advantageously, the washer makes it possible to prevent unscrewing of the holding member by frictional action between the lever and the holding member.

According to another characteristic of the invention, the lever comprises an upper gripping portion and a lower actuating portion. Advantageously the actuating portion comprises a projecting flange shaped to cooperate with a portion of the edge of the washer. According to another characteristic of the invention, a retaining orifice is provided on the yoke and the washer has a protruding portion shaped to cooperate with the retaining orifice. Preferably, the washer comprises at least one recess on a portion of the periphery of the washer, said recess forming a stop and being designed to limit the movement of the lever cooperating with a portion of the lever. Preferably, the portion of the lever corresponds to the projecting flange of the operating portion of the lever. The stop is used to position the lever in a stable position of rest or locking. Preferably, the protection washer comprises an upper recess forming a stop and designed to position the lever in a stable rest position, and a lower recess forming a stop and designed to position the lever in a stable locking position. Advantageously, the yoke and the lever have complementary shapes, which makes it possible to improve the compactness of the compass in the rest position, when the lever is positioned opposite the yoke. According to another characteristic of the invention, the lever and the washer are made in one piece, the lever and the washer being connected to each other by a flexible hinge. This one-piece design saves a room and combines lever function and washer function. According to another characteristic of the invention, the lever is made of filled plastic such as ABS (acrylonitrile butadiene styrene), POM (polyoxymethylene) or a charged polymer such as a glass bead loaded polyamide, and preferably zamak, to improve the strength and wear resistance of the compass. In addition, the yoke can also be made of filled plastic such as ABS (acrylonitrile butadiene styrene), POM (polyoxymethylene) or a charged polymer such as a polyamide loaded glass ball. In addition, the protective washer may also be made of filled plastic such as ABS (acrylonitrile butadiene styrene), POM (polyoxymethylene) or a charged polymer such as a polyamide loaded glass ball. The invention will be better understood, thanks to the following description, which refers to an embodiment according to the present invention, given by way of non-limiting example and explained with reference to the appended diagrammatic drawings, in which: 1 represents a front view of the drawing compass 20 according to the invention in the rest position, FIG. 2 represents a view in longitudinal section along an axis XX of the compass shown in FIG. 1; FIG. FIG. 4 is a longitudinal sectional view along an axis XX of the compass shown in FIG. 3; FIG. 5 is an exploded view of a partial assembly; of the compass according to the invention; FIG. 6A is a front view of the compass clevis according to the invention; FIG. 6B is a side view of the clevis shown in FIG. 6A; FIG. 7A is a rear view of selo compass lever and Fig. 7B is a side view of the lever shown in Fig. 7A.

The drawing compass 1 according to the invention comprises two branches 2a, 2b hinged and rotatably mounted along an axis of rotation A-A substantially perpendicular to the plane in which the branches 2a, 2b extend. The first branch 2a comprises an end equipped with a tracer mine, and a hinge end provided with a hinge member of the sector or disk type (not shown) designed to cooperate in rotation with the articulation member. complementary to the other branch 2b. The second limb 2b comprises an end equipped with a tip and articulation end provided with a sector-type or disc articulation member (not shown) designed to cooperate in rotation with the complementary articulation member of the other branch 2a. As can be seen in Figures 2 and 4, a friction cheek 3 is interposed between the articulation ends of the branches 2a, 2b. The hinge end of each branch 2a, 2b and the friction cheek 3 are housed in a yoke 4. The yoke 4 comprises a front wing 4a and a rear wing 4b. The yoke 4 comprises lateral recesses allowing the deflection of the branches 2a, 2b. The yoke 4, shown in FIGS. 6A and 6B, comprises an outer surface in which are formed two ramps 8. The ramps 8 are positioned around a through orifice 11 intended to receive a holding member 7, the holding member 7 comprising a screw 7a and a nut 7b. The ramps 8 are symmetrical. The ramps 8 are rising in a direction of rotation, when the lever moves from a rest position to an actuating position. Advantageously, the outer surface of the yoke 4 at the orifice 11 has undergone a coining operation forming a housing around the orifice 11 on the rear fender 4b, the housing being designed to receive the nut 7b so as to to prevent said nut 7b from protruding from the yoke 4. In the example illustrated in Figures 6A and 6B, a retaining orifice 30 is formed on the front flange 4a of the yoke 4. The orifice retainer 10 is designed to cooperate with a protruding portion 6a of a protective washer 6, which will be described later. As can be seen in FIG. 5, the branches 2a, 2b, the friction flange 3, the yoke 4 are held together by the holding member 7, which in the illustrated example is a screw / nut device. The holding member 7 is positioned on the axis of rotation AA, so that the branches 2a, 2b are movable around the holding member 7. According to the invention, the drawing compass 1 comprises a mounted lever 5 pivoting about the axis of rotation AA and held by the holding member 7 as illustrated in Figure 5. The lever 5, illustrated in Figures 1 to 5 and more particularly to Figures 7A and 7B, comprises a lower portion of actuation 5b and an upper gripping portion 5a. The grip portion 5a of the lever 5 has a shape complementary to the shape of the yoke 4 for a question of compactness. Preferably, the gripping portion 5a is substantially curved, as illustrated in FIG. 7B. In addition, a counterbore has been made on the outer surface of the yoke 4 around the orifice 11 on the front flange 4a of the yoke 4 forming a housing shaped to partially receive the actuating portion 5b of the lever 5 The actuating portion 5b of the lever 5 comprises two pins 9. The pins 9 are designed to cooperate each with one of the ramps 8 formed on the outer surface of the yoke 4. The pins 9 are positioned around the axis of rotation AA. The lever 5 is configured to move from a first position, illustrated in FIGS. 1 and 2, to a second position, illustrated in FIGS. 3 and 4. The first position is a rest position in which the grip portion 5a of the lever 5 is positioned facing the yoke 4. In the rest position, the rotation of the branches 2a, 2b is free, that is to say that the branches 2a, 2b are not constrained in a specific position. It is in the rest position that one can adjust the spacing of the branches 2a, 2b. The second position is a locking position in which the grip portion 5a has been turned substantially by a quarter of a turn. In the locking position, the position of the branches 2a, 2b is fixed so that, when drawing, the branches 2a, 2b do not deviate further. The locking of the branches 2a, 2b is achieved by the cooperation of the pins 9 with the ramps 8. Indeed, in the rest position, the pins 9 are each positioned on a ramp 8 at the lowest point thereof. When the lever 5 is actuated, each pin 9 moves, in the direction of rotation of the lever 5, along the rising ramp 8 associated therewith. Once the lever 5 in the locking position, each pin 9 is positioned at the highest point of the ramp 8. The ramps 8 and constraints allow the progressive tightening of the branches 2a, 2b. Indeed, in the locking position, the pins 9 exert such forces on the ramps 8 that the front wing 4a is forced to come to press against the hinge end of the branches 2a, 2b housed in the yoke 4, blocking thus the two branches 2a, 2b. Of course, alternatively, the wing of the yoke 4 undergoing stress may be the rear wing 4b, it will suffice to reverse the positioning of the components of the compass 1.

According to the invention, the compass 1 may comprise a protective washer 6. The protective washer 6 is shown in FIGS. 1 to 5. The protective washer 6 comprises a projecting portion 6a designed to cooperate with the retaining orifice 10 in the yoke 4. The protective washer 6 is fixedly mounted on the axis of rotation AA and is held by the holding member 7, as can be seen in FIG. 5. The washer 6 comprises an edge shaped to be in contact with a protruding flange of the lever 5, the lever 5 being rotatably mounted about the axis AA, the protruding flange of said lever 5 slides on at least a portion of the edge of the washer 6. Com me visible in Figure 5, the washer 6 comprises a lower recess forming a stop, which stops the rotational movement of the lever 5 in a stable locking position. In addition, the washer 6 also comprises an upper recess forming a stop for stopping the rotational movement of the lever 5 in a stable rest position.

Advantageously, the washer 6 indexed on the yoke 4 through the retaining orifice 10 prevents a rotating part is in contact with the lever 5 to isolate the holding member 7. Thus, it eliminates the friction actions. In addition, the washer 6 protects the lever 5 from wear. In addition, the washer 6 insulating the holding member 7 of the lever 5 allows the use of a light brake allowing the adjustments of the holding member 7 with a tool, so that the user adapts the clamping force to its needs. It should be noted that, according to the invention, the use of a protective washer 6 is optional. In the example illustrated in Figures 1 to 7B, the parts of the compass 1 35 and in particular the yoke 4, the lever 5 and the protective washer 6 are made of filled plastic. Preferably, the lever is made of zamak. Of course, according to the invention, it is possible to use uncharged plastics for these parts. Of course, the invention is not limited to the embodiment described and shown in the accompanying figures. Modifications are possible, particularly from the point of view of the constitution of the various elements or by substitution of technical equivalents, without departing from the scope of protection of the invention.

Claims (10)

REVENDICATIONS1. Drawing compass (1) comprising two branches (2a, 2b) pivotally mounted about an axis of rotation (AA) substantially perpendicular to the plane in which the branches (2a, 2b) extend, a yoke (4) housing a articulation end of each branch (2a, 2b) and comprising at least one wing (4a, 4b) covering the articulation end of each leg (2a, 2b), a holding member (7) designed to hold assemblies the branches (2a, 2b) and the yoke (4), a locking device comprising a lever (5), characterized in that the lever (5) is rotatably mounted about the axis of rotation (AA) of said branches (2a, 2b) and is held together by the holding member (7) with the legs (2a, 2b) and the yoke (4), the lever (5) being adapted to move from a rest position in which the rotational movement of the branches (2a, 2b) is free at a locking position in which the position of the branches (2a, 2b) is blocked by application a force on the wing (4a, 4b) of the yoke (4) so that the wing (4a, 4b) of the yoke (4) constrains each hinge end of the branches (2a, 2b) housed in the screed (4). 2. Drawing compass according to claim 1, characterized in that the yoke (4) comprises an outer surface on which is formed at least one ascending ramp (8) and in that the lever (5) comprises at least one stud ( 9) configured to cooperate with said ramp (8). 3. Drawing compass according to claim 2, characterized in that two ramps (8) are provided on the outer surface of the yoke (4), the two ramps (8) being positioned symmetrically about the axis of rotation (AA). ) branches (2a, 2b) and in that the lever (5) comprises two studs (9), each stud (9) cooperating with a corresponding ramp (8). 4. Drawing compass according to any one of claims 1 to 3, characterized in that the drawing compass (1) comprises a friction flange (3) interposed between the articulation ends of each branch (2a, 2b). housed in the screed (4). 5. Drawing compass according to any one of claims 1 to 4, characterized in that the drawing compass (1) further comprises a protective shield (6) fixedly mounted around the axis of rotation (AA) of the branches (2a, 2b), the washer (6) being adapted to be positioned between the lever (5) and the holding member (7). 6. Drawing compass according to claim 5, characterized in that a retaining orifice (10) is provided on the yoke (4) and in that the washer (6) comprises a projecting portion (6a) shaped to cooperate with the retaining orifice (10). 7. drawing compass according to any one of claims 5 or 6, characterized in that the washer (6) comprises at least one recess (12) on a portion of the periphery of the washer (6), said recess (12). ) forming a stop and being designed to limit the movement of the lever (5) cooperating with a portion of the lever (5). 8. Compass according to any one of claims 5 to 7, characterized in that the lever comprises an upper gripping portion (5a) and a lower actuating portion (5b), the actuating portion (5b) comprising a protruding rim shaped to cooperate with a part of the edge of the washer (6). 9. Compass according to any one of claims 5 to 8, characterized in that the lever (5) and the washer (6) are made in one piece, the lever (5) and the washer (6) being connected one to the other by a flexible hinge. Drawing compass according to one of Claims 1 to 9, characterized in that the lever (5) is designed to move from the rest position to the locking position, the change of position of the lever (5) being reversible so that the lever (5) is designed to also move from the locking position to the rest position.