FR3018873A1 - AUTOMATIC SCREW USED FOR THE CONTACTS OF ELECTRIC WIRES AND CABLES - Google Patents

Abstract

Cylindrical self-hammering screw comprising a self-hammering head (10) and a screw body (12) having an external thread adapted to screw the screw, the head and the body of the screw being separated by a groove (16) allowing the screw to break between the head and the screw body when a tightening torque applied to the head during screwing of the screw reaches a determined value. The screw comprises an inner hollow cylinder (18) having a female screwing / unscrewing profile allowing a tool having a corresponding male screw / unscrewing profile to unscrew the screw body after the head has been removed. An insert (24) can be placed in the inner hollow cylinder to indicate that the screw should no longer be screwed or unscrewed when the head has been broken and removed.

Description

The present invention relates to electrical appliances and all appliances requiring connections by wires or cables, and particularly relates to a self-stripping screw for the contacts of the wires and cables. There are several methods for attaching accessory parts to a device. It is often necessary that these accessories can be condemned to prevent theft, as is the case when the accessories are external to the device, particularly those of mobile devices such as cars or motorcycles. Generally, the attachment of an accessory part to an apparatus is achieved by tightening a screw or a bolt having a head. At the end of clamping during which a larger and larger tightening torque is applied to the head, it can be broken off and detached from the threaded screw body as it has a point of weakness facilitating its breakage in the form of a groove dug under the head to decrease its resistance section and cause breakage of the head when the tightening torque exceeds a determined value. Thus, French Patent 2529273 discloses a tamper-proof assembly screw notched with a deep groove so as to cause its rupture at the end of tightening. Without its head, the screw can no longer be unscrewed and the assembled parts are condemned. Unfortunately, the self-tapping screw which has just been described is not suitable when the apparatus is an electrical appliance such as an electric meter. Indeed, unlike the self-tapping screw used in appliances where it is necessary that the screw can no longer be removed once the head of the screw has been broken, the screw used in electrical appliances such as meters must be removable when changing the installation of or changing the appliance. Therefore, the main object of the present invention is to provide a self-stripping screw that can be unscrewed after the self-stripping portion of the screw has been removed. Another object of the invention is to provide a self-hammering screw having means indicating that the self-stripping portion of the screw has been removed and that the screw is not to be screwed or unscrewed. A first object of the invention is a cylindrical self-hammering screw comprising a self-hammering head and a screw body 10 having an external thread adapted to screw the screw, the head and the body of screws being separated by a groove for breaking the screw. between the head and the body of screws when the tightening torque applied to the head during the screwing of the screw reaches a determined value. The screw is characterized by comprising an inner hollow cylinder having a female screwing / unscrewing profile allowing a tool having a corresponding male screw / unscrewing profile to unscrew the screw body after the head has been removed. A second object of the invention is a breakthrough screw 20 as set forth above in which an insert is placed in the inner hollow cylinder for the purpose of indicating that the screw must no longer be screwed or unscrewed when the head has been broken. and withdrawn. According to a particular embodiment of the invention, the insert is of very visible color and comprises a groove for easily removing the insert by means of a clamp when it is necessary to unscrew the screw body D ' Other objects, objects and features of the invention will become more apparent upon reading the following description with reference to the drawings in which: Fig. 1 shows a cross-section of the breakthrough screw according to one embodiment of the invention; Figure 2 shows a cross-section of the screw body shown in Figure 1 after the break-up portion has been removed; Figure 3 shows a top view of the screw body shown in Figure 2; FIG. 4 represents a section of the self-locking screw comprising a safety insert according to a preferred embodiment of the invention; and Figure 5 shows a cross-section of the screw body shown in Figure 4 after the break-up portion has been removed. With reference to FIG. 1, the self-stripping screw according to one embodiment of the invention comprises a self-crushing part 10 called head afterwards, although this part is not necessarily a screw head in the classical sense of the term, and a screw body 12. It is mainly used in electrical appliances for the connection of conductive wires and cables such as the "sugars" of electricians. The screw body 12 comprises an external male thread allowing the screw to be screwed into a cylindrical screw hole having a female thread so as to clamp a wire, a cable or even several wires or conductive cables 20 at the base. the screw hole, under the screw body 12. When the screw reaches the end of screwing, it exerts pressure on the (the) wire (s) through the flat base 14 of the screw body 12. The The screw according to the invention comprises a point of weakness 25 obtained by means of a groove 16 situated between the head 10 and the screw body 12. When the screw is tightened by screwing by applying a tightening torque to the head, the torque applied is more and more important as the final tightening until there is rupture of the head at the location of the groove 16 30 when the applied torque reaches a determined value. Note that this value is a function of the pressure of the base 14 on the son or cables, which pressure is necessary for there to be a good electrical contact and prevent this contact has a high electrical resistance causing a significant heating and a risk of degradation of the junction.

When there has been a break in the head 10 and the latter has been removed, the screw is as shown in Figure 2, the 20 of the screw body generally flush with the top of the threaded hole in which there is the screw.

The screw according to the invention comprises an inner hollow cylinder 18 for removing the screw when it is necessary to modify the installation or to change the electrical apparatus. Indeed, the hollow cylinder 18 has a female screwing / unscrewing profile that allows the screw to be unscrewed once the head 10 has been removed after breaking at the location of the groove 16. In the illustrated embodiment in FIG. 1, the female screwing / unscrewing profile is a hexagonal hollow cylinder 20 illustrated in FIG. 3 showing a top view of the screw shown in section in FIG. 1. The screw is unscrewed in introducing a tool having a male screwing / unscrewing profile corresponding to the hexagonal hollow cylinder 22, that is to say a hexagonal Allen key. Note that the female screwing / unscrewing profile 20 could be different. For example, instead of the hexagonal hollow cylinder, the inner female profile could be a profile of the Torx type and the corresponding tool a screwdriver of the corresponding Torx type. In another embodiment, the bottom of the hollow cylinder 18 could have a simple slot 25 allowing a conventional screwdriver to unscrew the screw after its introduction into the slot. Similarly, the bottom of the hollow cylinder could have a hollow recess cruciform or Torx form allowing a Phillips screwdriver or Torx to unscrew the screw. In general, the tool used for the unscrewing of the screw must comprise a male screwing / unscrewing profile which corresponds to the screwing / unscrewing profile of the screw. According to a preferred embodiment of the invention illustrated in Figure 4, the screw is identical to the screw 35 illustrated in Figure 1, but comprises an insert 24 of plastic or any other material having a certain rigidity, has a length equal to half the length of the hollow cylinder 18. When the head 10 breaks by application of a tightening torque whose value becomes greater than a determined value, the insert 24 which is no longer concealed by the head which has been removed, appears. Preferably, the insert 24 is of a very visible color, for example red, so as to see that the head has been removed. The insert 24 is intended to provide some security. Indeed, the visible presence of the insert is an indication that the screw has been tightened to ensure contact with the wire (s) or cable (s). Consequently, the presence of the insert prevents a technician in charge of manipulating the electrical apparatus from being required to screw the screw further, which could lead to excessive crushing of the wires or cables and thus to degradation, or to be unscrewed. the screw, which results in insufficient electrical contact. According to a particular embodiment, the insert 24 has a groove 26 located just below the point of rupture of the head, that is to say above the groove 16. When it is necessary to remove the screw in In order to modify the installation or to change the electrical apparatus, the insert 24 illustrated in FIG. 5 can easily be removed from the hollow cylinder 18 by means of a clamp or any other suitable tool. Note that, although in the embodiment illustrated in Figure 1, the head 10 has a diameter equal to the thread diameter of the screw body 12, the head could have a larger diameter. This is not a problem since the head of a screw may be broken and removed as soon as the screw has been placed in its place, so that there is no difficulty in placing an adjacent screw in the one whose head has been removed even if the head of the screws is wider than the screw body.

Claims (7)

REVENDICATIONS1. Cylindrical self-hammering screw comprising a self-hammering head (10) and a screw body (12) having an external thread adapted to screw the screw, the head and the body of the screw being separated by a groove (16) allowing the screw to break between said head and said screw body when a tightening torque applied to said head during screwing of the screw reaches a determined value; said screw being characterized in that it comprises an inner hollow cylinder (18) having a female screwing / unscrewing profile enabling a tool having a corresponding male screwing / unscrewing profile to unscrew said screw body after said head has been withdrawn. 2. Shattering screw according to claim 1, wherein said female screwing / unscrewing profile is a hexagonal hollow cylinder (22) and said tool used for unscrewing said screw body (12) is an Allen key. The breakthrough screw according to claim 1, wherein said female screwing / unscrewing profile is a slot in the bottom of said hollow cylinder (18) and said tool is a conventional screwdriver. The breakthrough screw according to claim 1, wherein said female screwing / unscrewing profile is a cruciform recess located in the bottom of said hollow cylinder (18) and said tool is a suitable Phillips screwdriver. 5. Shattering screw according to one of claims 1 to 4, wherein an insert (24) is placed in said hollow cylinder (18) for the purpose of indicating that the screw must no longer be screwed or unscrewed when said head (10) was broken and removed. 6. Sanding screw according to claim 5, wherein said insert (24) is made of plastic having a very visible color, for example red. 7. Self-hammering screw according to claim 5 or 6, wherein said insert (24) has a groove (26) for easy removal of said insert (24) by means of a clamp when it is necessary to unscrew said body. screw (12).