FR3073621A1 - MODEL FOR CONTROLLING THE DIMENSION OF AN AUTOMOTIVE VEHICLE OPENING - Google Patents

Abstract

The invention relates to a dimensional control model (2) of an opening (4) of a motor vehicle at its periphery, at different predetermined control points, said model (2) comprising a frame (8) of non-ferromagnetic material , with an internal contour (10) for forming a frame of the opening and means for positioning and fixing (12) of the opening on the model. The frame of the model (2) comprises ferromagnetic plates (14) for receiving and interacting by magnetization with a dimensional control tool of the opening, said plates (14) being located at different control points, respectively. The invention also relates to a method of dimensional control of an opening.

Description

DIMENSIONAL CONTROL MODEL OF A MOTOR VEHICLE OPENING ELEMENT.

The invention relates to the field of motor vehicles, more particularly to the field of dimensional control of motor vehicle openings.

In the automotive field, dimensional checks of bodywork components are carried out for technical and aesthetic purposes. It is therefore common to carry out dimensional checks on motor vehicle sashes in order to verify that the sashes fit correctly on the body of the motor vehicle. These checks are generally carried out before mounting the opening elements on the body, using a dimensional control model on which the opening elements are placed.

The patent document published FR 2 909 755 A1 discloses a method of dimensional control of an opening of a motor vehicle with respect to its framing. The dimensional control of the opening is carried out on a control post of a manufacturing line comprising a system of measurement sensors adapted to measure a play and / or a flushing of the opening at different control points of the opening. in relation to its management and this without contacts. The method comprises a phase of determining a law of variation of the values of the clearance and / or the flush for the different control points of the opening as a function of various positions of the opening taken with respect to a reference position in which the opening is in the closed reference position, corresponding to a control point of the opening; a measurement phase for which the opening occupies any position with respect to the frame and during which a measurement of the values of the clearance and / or of the flushing is carried out at the various control points of the opening; a phase of taking into account the measured values and the law of variation so as to determine the real values. The process used is complex and only concerns the dimensional checks of the sash mounted on the vehicle body, by means of a system of non-contact measurement sensors.

The aim of the invention is to overcome at least one of the drawbacks of the above-mentioned state of the art. More particularly, the invention aims to provide a simple and precise solution for the dimensional control of an opening of a motor vehicle.

The subject of the invention is a dimensional control model of a motor vehicle opening at its periphery, at different predetermined control points, said model comprising a frame made of non-ferromagnetic material, with an internal contour intended to form a frame for the opening and positioning and fixing means of the opening on the model, remarkable in that the framework of the model includes ferromagnetic plates intended to receive and cooperate by magnetization with a dimensional control tool of the opening, said plates being located at the different control points, respectively.

According to an advantageous embodiment of the invention, the ferromagnetic plates are adjacent to the internal contour of the frame of the dimensional control model.

According to an advantageous embodiment of the invention, each ferromagnetic plate comprises means for positioning the control tool.

According to an advantageous embodiment of the invention, the positioning means comprise at least one orifice intended to cooperate with an element of the control tool.

According to an advantageous embodiment of the invention, the positioning means comprise several orifices aligned in a direction parallel to the adjacent internal contour of the frame of the model.

The subject of the invention is also a method of dimensional control of a motor vehicle window, on the periphery of said window, said method comprising the following steps: placing the window to be checked on a dimensional control model, dimensional control of the opening at the periphery with a dimensional control tool, at at least one predetermined control point of the opening, remarkable in that the dimensional control model conforms to the invention, the method further comprises a step fixing by magnetization of the dimensional control tool of the opening on one of the ferromagnetic plates of the model, before the control step.

According to an advantageous embodiment of the invention, each ferromagnetic plate comprises means for positioning the control tool, the positioning means comprise at least one orifice intended to cooperate with an element of the control tool, during fixing of the dimensional control tool, at least one element of said tool is engaged in one of the orifices of the corresponding ferromagnetic plate.

According to an advantageous embodiment of the invention, the dimensional control step comprises a measurement of the outer surface of the opening in order to control the flush between said opening and the frame of the model, at the periphery of the opening.

According to an advantageous embodiment of the invention, the dimensional control step comprises a step of measuring a clearance between a free edge of the sash and the adjacent internal contour of the frame of the model.

According to an advantageous embodiment of the invention, the dimensional control tool used comprises at least one mobile probe configured to measure said clearance and / or the exterior surface of the opening in order to control the flush between said opening and the frame. the model, on the periphery of the opening.

Advantageously, the model and the method of the invention are suitable for the dimensional control of side doors and rear flaps of a motor vehicle.

The measures of the invention are advantageous in that the dimensional control model of the opening comprises ferromagnetic plates allowing attachment by magnetization of a dimensional control tool. The dimensional control tool is no longer maintained by an operator during the control. The invention thus improves the precision of the dimensional control of the opening. Dimensional inspection errors are reduced, thereby reducing the time and cost of dimensional checks. The invention also has the advantage of being simple to implement.

Other characteristics and advantages of the present invention will be better understood from the description and the drawings, among which:

- Figure 1 illustrates a dimensional control model of a motor vehicle opening, in accordance with the invention;

- Figure 2 illustrates a sectional view of the model and the opening of Figure 1 where a dimensional control tool is shown.

FIG. 1 illustrates an example of a dimensional control model 2 of an opening 4 of a motor vehicle at its periphery, at different predetermined control points and FIG. 2 represents a sectional view of the assembly of the model 2 and of the opening 4 on which is placed a dimensional control tool

6. Figures 1 and 2 will be described together.

The dimensional control model 2 as illustrated is a model for a side window, however it is understood that the model 2 is suitable for any type of window, such as a rear shutter of a motor vehicle (not shown).

The model 2 comprises a frame 8 with an internal contour 10 intended to form a frame for the opening 4. The frame 8 is made of a non-ferromagnetic material. The model 2 comprises means for positioning and fixing the opening onto said model 2. The positioning means can for example comprise centering pins (not visible) of the opening on the model. The fastening means of the opening may include hinges 12 or any other element suitable for fixing the opening to the model.

The frame 8 of the model of the invention comprises ferromagnetic plates 14 intended to receive and cooperate by magnetization with a dimensional control tool 6 of the opening. The dimensional control tool is shown in FIG. 2. The ferromagnetic plates 14 are located at the different control points, respectively. The dimensional control tool 6 may comprise a housing 16 with a base comprising at least one ferromagnetic element such as a magnet 18, allowing the tool 6 to be fixed by magnetization on one of the ferromagnetic plates 14. Each ferromagnetic plate 14 comprises positioning means 20 of the dimensional control tool 6 on the plate. The positioning means 20 comprise at least one orifice 22 intended to cooperate by engagement with an element of the control tool, in this case, in this embodiment shown in FIG. 2, the magnet 18 is engaged in a orifices 22 of one of the plates 14 thus allowing correct positioning of the control tool 6 on the corresponding plate 14. According to one embodiment of the invention, the positioning means 20 of each plate 14 comprise several orifices 22 aligned in a direction parallel to the internal contour 10 adjacent to the frame 8 of the dimensional control model 2.

The invention also provides a method of dimensional control of an opening 4 of a motor vehicle, at the periphery of said opening, by means of the dimensional control model 2 according to the invention. The method comprises a step in which the opening 4 to be inspected is placed on a dimensional control model 2 of the invention, as illustrated in FIG. 1. The method also includes a dimensional inspection step of the opening 4 , at the periphery, with a dimensional control tool 6, in at least one predetermined control point of the opening 4. The method further comprises a step of fixing by magnetization the dimensional control tool 6 of the opening onto one of the ferromagnetic plates 14 of the model, before the dimensional control step. According to one embodiment, during the fixing of the dimensional control tool 6, at least one element of said tool 6 is engaged in one of the orifices 22 of the corresponding ferromagnetic plate, as illustrated in FIG. 2. In l occurrence, the element of the tool engaged in one of the orifices 22 is the magnet 18.

The dimensional control step may include a measurement of the outer surface 24 of the opening (Figure 2) in order to control the flush between said opening 4 and the frame 8 of the model 2, at the periphery of the opening. Similarly, the dimensional control step may include a step of measuring a clearance between a free edge 26 of the opening and the internal contour 10 of the frame 8 of the model.

The dimensional control tool 6 used can include at least one movable probe 28 configured to measure a clearance and / or control an outcrop as previously mentioned. In this case, the control tool 6 as shown in FIG. 2 comprises two probes 28.1 and 28.2 to measure a clearance respectively and to control an outcrop. The probes 28.1 and 28.2 are movable relative to the housing 16 of the tool 6. The control tool 6 can also include an electromechanical transducer (not visible) cooperating with each probe and configured to convert the distance made by each probe 28 into measured. The control tool can be electronically connected to a processing unit (not shown) allowing a reading of the measured values. These dimensional control tools are well known to those skilled in the art and are not limitative of the invention. It is understood that any other suitable dimensional control tool can be used in the context of the invention.

The dimensional control method can also include a step of comparing the measured values with a reference value.

Claims (10)

1. Dimensional control model (2) of an opening (4) of a motor vehicle at its periphery, at different predetermined control points, said model comprising a frame (8) made of non-ferromagnetic material, with an internal contour (10) intended to form a frame for the opening (4) and positioning and fixing means (12) of the opening on the model, characterized in that the frame (8) of the model comprises ferromagnetic plates (14) intended to receive and cooperate by magnetization with a dimensional control tool (6) of the opening, said plates (14) being located at the different control points, respectively. 2. Model (2) according to claim 1, characterized in that the ferromagnetic plates (14) are adjacent to the internal contour (10) of the frame (8) of the dimensional control model (2). 3. Model (2) according to one of claims 1 and 2, characterized in that each ferromagnetic plate (14) comprises positioning means (20) of the control tool (6). 4. Model (2) according to claim 3, characterized in that the positioning means (20) comprise at least one orifice (22) intended to cooperate by engagement with an element (18) of the control tool (6) . 5. Model (2) according to claim 4, characterized in that the positioning means (20) comprise several orifices (22) aligned in a direction parallel to the internal contour (10) adjacent to the frame (8) of the model (2 ). 6. Method of dimensional control of an opening (4) of a motor vehicle, on the periphery of said opening, said method comprising the following steps: at. place the opening (4) to be checked on a dimensional control model (2), b. dimensional control of the opening (4) at the periphery with a dimensional control tool (6), at at least one predetermined opening control point, characterized in that the dimensional control model (6) conforms to one of claims 1 to 5, the method further comprises a step of fixing by magnetization of the dimensional control tool (6) of the opening on one of the ferromagnetic plates (14) of the model (2) , before the control step. 7. Method according to claim 6, characterized in that the model (2) is according to claim 4, during the fixing of the dimensional control tool (6), at least one element (18) of said tool (6) is engaged in one of the orifices (22) of the corresponding ferromagnetic plate (14). 8. Method according to one of claims 6 and 7, characterized in that the dimensional control step comprises a measurement of the outer surface (24) of the opening (4) in order to control the flush between said opening ( 4) and the frame (8) of the model, at the periphery of the opening. 9. Method according to one of claims 6 to 8, characterized in that the dimensional control step comprises a step of measuring a clearance between a free edge (26) of the opening and the internal contour (10) adjacent to the frame (8) of the model. 10. Method according to one of claims 8 and 9, characterized in that the dimensional control tool (6) used comprises at least one mobile probe (28) configured to measure said clearance and / or the external surface (24) of the opening (4) in order to control the flush between said opening (4) and the frame (8) of the model, at the periphery of the opening.