FR2744773A1 - Pivot support for motor element with electricity consumption meter - Google Patents

Abstract

The component (1) forms a pivot for the motor shaft of an electricity meter, engaging an aperture formed in the frame of the meter. It comprises a first part (10) which has a transverse section which corresponds to the shape of the opening the frame, and which may be inserted into this opening in a first direction, but not withdrawn. A second part (11) makes contact with the upper surface of the wall of the frame to prevent the component dropping into the frame. The second part of the component includes several element (14) which have a degree of elasticity, such that the component is supported resiliently with the required orientation.

Description

PIVOT FOR A NIOTEUR TREE
OF AN ELECTRICITY CO.
The present invention relates to a part forming a pivot for the drive shaft of the engine assembly of an electricity meter and which is capable of engaging in an opening formed in the frame of the account I! 1 ..

In an electromechanical electricity meter the rotation disc is mounted on a motor shaft held between a lower pivot and an upper pivot (or counter-pivot). The upper pivot is usually formed in one piece, for example plastic or metal, which is fixed in an orifice in the frame of the meter and which receives the upper bearing of the motor shaft. In conventional devices, the pivot piece has a thread and is screwed into an opening in the frame. This fixing method has the disadvantage that it requires a tapping step during the manufacture of the frame to create the opening. The introduction of another step in the manufacturing process increases production costs, in particular given the dimensions of the parts and the precision necessary to ensure the formation of a tapped opening. In addition, such a connection is relatively fragile, thus giving rise to problems, for example, during the process of assembling the meter.

To strengthen the engagement of the part in the frame other more solid structures have been proposed, including a part having an enlarged base in the form of a plate which bears against the surface of the frame and which is fixed in position by a screw passing through the plate and the frame. These structures are generally stronger but more complicated to manufacture and therefore more expensive.

The object of the present invention is to solve these problems and to provide a connection which is both stronger and simpler than those proposed in the past.

The present invention is characterized in that the pivot part comprises two parts, a first part having a cross-sectional shape which corresponds to the shape of the opening in the frame and which allows the first part of the part to be inserted in the opening in a first orientation and which prevents the part from being withdrawn from the opening in a second orientation, and a second part which comes into contact with the wall of the frame to prevent the part from crossing the following opening its second orientation, at least one of the two parts having an elasticity such that the part is fixed in position in the frame according to its second orientation, the upper surface of the first part resting on the lower surface of the wall of the frame and the surface lower part of the second part resting on the upper surface of the wall of the frame in this second orientation to keep the part in position.

By these means the present invention provides a pivot piece which can be easily inserted into the meter frame and fixed in position by a simple rotation of the piece. There is no tapping step for the opening and the manufacture of the counter is simplified. The coupling between the part and the frame is also greater than that which can be obtained with a threaded part, making the device more resistant to shocks which may occur during assembly or transport of the meter.

According to one embodiment, the second part has a certain elasticity with respect to the first part which is rigid. This embodiment facilitates the introduction of the part into the opening in the event that the second part is dimensioned so as not to cross the opening along all the orientations of the part. especially following the first orientation of the part. In this case, the part can be inserted until the lower surface of the second part comes into contact with the upper surface of the frame. If the pressure on the part is maintained the elasticity of the second part will allow the part to be pressed and turned in the opening without the first part rubbing on the surface of the frame. Once the part is positioned in its second orientation, the pressure can be released and the upper surface of the first part will come into contact with the lower surface of the frame.

In practice, and particularly in the case where the part is made of molded plastic, the difference between the elasticity of the second part and the rigidity of the first part can be relatively minor. Consequently, in other embodiments, the two parts can be elastic, or the first elastic part and the second rigid part.

In one embodiment, the first part has a substantially cylindrical shape with one or more ribs, the upper surface of the ribs cooperating with the lower surface of the frame to fix the part in the frame. Preferably, the first part is provided with three ribs, the upper surface of the ribs defining a contact plane which cooperates with the surface of the frame. Other configurations are possible (two ribs, four ribs etc.) but three ribs represent the optimal number to ensure good engagement of the part with a structure of minimal complexity.

In one embodiment, the second part comprises one or more elements acting as springs. Preferably, the lower surface of each of these elements can be provided with a boss capable of being received in a respective recess made in the surface of the frame. By these means the part will be fixed in position in its second orientation and will resist accidental rotations of the part.

Preferably, the part is made of molded plastic.

In this case, the ribs of the first part and the elastic elements of the second part may be offset in the axial direction of the part to facilitate the molding operation.

To cooperate with the bearing of the motor shaft of the counter, the part is provided with a recess to receive the sleeve of the bearing as well as a metal or plastic needle which engages inside the sleeve of the bearing. If a metal needle is used, it can be inserted into the mold.

Preferably the head of the part is provided with a slot able to receive the blade of a tool to facilitate the insertion and rotation of the part in the frame. For example, the slot may be able to receive the blade of a screwdriver. In another embodiment the slot can have a hexagonal configuration to receive the blade of an Allen key.

The present invention also extends to an electricity meter provided with an engine assembly and with a support system for the disc comprising the part forming a pivot described above.

The invention will be better understood on reading the following description of a preferred embodiment of the invention, given by way of illustrative and non-limiting example and referring to the accompanying drawings in which
Figure 1 shows an example of a pivot piece according to the present invention and mounted in the frame of an electricity meter;
Figure 2 shows a longitudinal X e of the part;
Figure 3 shows a longitudinal sectional view of the part in position in the frame of the meter;
Figure 4 shows a top view of the part;
Figure 5 shows a top view of the opening in the frame that receives the part.

Referring to Figure 1, the part 1 forming the pivot of the engine assembly of a meter and which is the subject of the patent application is fixed in an opening formed in a projecting part 3 of the frame 2 of the meter . The other elements of the meter and its engine crew are conventional and are not shown. The frame can be easily manufactured by cutting and bending a metal plate. A lower pivot (not shown) is mounted in a projecting part 4 which is located directly below the upper pivot 1. The longitudinal axis of the drive shaft is held between the two pivots. As shown in Figure 1, the frame 2 is cut at locations 5 in order to receive the horizontal disc of the counter which rotates around the motor shaft.

As shown in Figure 2, the part 1 comprises a first part 10 and a second part 11. The first part 10 has the shape of a cylinder 12 provided with three ribs 13. The second part 11 comprises three elastic elements 14, two of the three elements being shown in Figure 2, the third element being hidden in this view. The part 1, except the metal needle 22 described below, is a single part formed in a molded plastic. The "Z" shape of the elements 14, which is shown more clearly in the
Figure 4, gives the elements the desired degree of elasticity.
The lower surface 15 of the elements 14 comes into contact with the upper surface of the frame 17 during use (see the
Figure 3). A boss 16 is formed at the end of each element 14 to engage in a recess 18 formed in the upper surface of the frame. See Figures 3 and 5. The upper surfaces 19 of the ribs 13 define a plane and come into contact with the lower surface 20 of the frame. See Figure 3.

The part also includes a recess 21 and a metal needle 22 able to engage in the sleeve of the motor shaft. The metal needle can be introduced into the part during the molding step.

The head 23 of the part comprises a hexagonal slot 24 capable of receiving the blade of an Allen key to facilitate insertion and rotation of the part in the frame.

Referring to Figures 5 and 6, the shape of the opening 25 which is cut from the metal of the frame as well as the arrangement of the recesses 18 can be better seen. The opening 25 comprises a cylindrical part 26, having dimensions corresponding to those of the cylinder 12 of the part, and sections 27 corresponding to the ribs 13 of the part.

To fix the part in position, the part is placed in a first orientation in which the ribs 13 of the part are aligned with the sections 25, and inserted until the bosses of the lower surface of the elements come into contact with the upper surface of the frame. In this position, the upper surface of the ribs is always above the lower surface of the frame and you must continue to push on the head of the part until the ribs descend below the level of the lower surface of the frame and that the part can be turned in the opening. The part is tensioned during this phase thanks to the elasticity of the elements 14.

The part is then turned in the opening until the bosses 16 engage in the recesses 18 in the surface of the frame. At this time, the pressure on the part can be released and the ribs will come into contact with the surface of the frame and the part will be fixed in position, as shown in Figure 3. The cooperation of the bosses of the part with the recesses in the frame makes this coupling secure and resistant to accidental impact. Consequently, the part can only be removed by turning the part with a fairly high rotational force.

As shown in Figures 4 and 5, the ribs 13 and the bosses 16 as well as the slots 25 and the recesses 18 are positioned so that, on the one hand, the bosses do not engage in the recesses when the ribs are inserted in the slots, and secondly so that the ribs are displaced relative to the slots when the bosses are in the recesses and the part is then fixed in position.

To facilitate the molding of the part and the removal of the part from the mold, the ribs 13 are displaced relative to the elements 14.

As described above, inserting and removing the part in the rack can be done using a wrench
Allen which engages in the hexagonal slot in the head of the part. In the absence of such a tool, the part can be put in place by hand, and the head 23 of the part is provided with grooves to facilitate insertion by hand.

Claims (10)

1. Pivot piece (1) for the motor shaft of a meter  of electricity, the room being able to engage in a  opening (25) formed in the wall of the meter frame and  characterized in that it comprises two parts, one  first part (10) having a sectional shape  transverse which corresponds to the shape of the opening in  the frame and which allows the part to be inserted into  the opening following a first orientation and which  prevents the part from being withdrawn from the opening following a  second orientation, and a second part (11) which  comes into contact with the wall of the frame to prevent  piece to cross the opening following its second  orientation, at least one of the two parts (10, 11) having  elasticity such that the part is fixed in position in  the frame following its second orientation, the surface  upper part (19) of the first part resting on the  bottom surface (20) of the frame wall and the surface  bottom (15) of the second part based on the  upper surface (17) of the frame wall in this  second orientation to keep the part in position. 2. Part according to claim 1, characterized in that the  second part (11) is dimensioned so as not to  cross the opening in the frame in the first  workpiece orientation. 3. Part according to claim I or 2, characterized in that  the second part (11) has a certain elasticity  with respect to the first part (10) which is rigid. 4. Part according to any one of claims 1 to 3,  characterized in that the first part (10) has a shape  substantially cylindrical (12) with one or more  ribs (13), the upper surface (19) of the ribs  engaging in the lower surface (20) of the frame for  fix the part in the frame. 5. Part according to claim 4, characterized in that the  first part (10) is provided with three ribs (13), the  upper surface (19) of the ribs defining a plane  contact which engages in the surface (20) of the frame. 6. Part according to any one of claims 1 to 5,  characterized in that the second part (11) comprises  one or more elements (14) acting as  springs. 7. Part according to claim 6, characterized in that the  lower surface of each of the elements (14) is provided  a boss (16) capable of being received in a hollow (18)  respective practiced in the surface of the frame. 8. Part according to any one of claims 1 to 7,  characterized in that it is made of plastic  mold. 9. Part according to any one of claims 1 to 8,  characterized in that the head (23) of the workpiece is provided  a slot (24) capable of receiving the blade of a tool for  facilitate the insertion and rotation of the part in the frame. 10. An electricity meter fitted with an engine crew  comprising a pivot piece as claimed  in any one of claims 1 to 9.