FR2861507A3 - Metal pin for use in electrical power plugs has a cylindrical form with a reduced section that shaped to prevent rotation when built into the body of the plug - Google Patents

Abstract

he pins used in electrical power plugs are of a generally cylindrical form [3] and have reduced diameter section [31] for moulding into the plug body. The section is also formed with a flat [311] that prevents rotation of the pin.

Description

The invention relates to a spindle structure for a plug.

  A plug is generally coupled to a socket for powering an electrical appliance or the like.

  A typical plug has at least two pins formed of a conductive metal. The pins are supported by an inner frame. In particular, the pins are placed in a mold, and a molten plastic material is poured into the mold, forming an inner frame which is bonded to the pins. A semi-finished product is thus formed after the hardening of the plastic material. A housing is then formed to give a plug constituting a final product. A torque test is performed to test the strength of the connection between the inner frame and the pins. In fact, the torque resistance characteristic has become one of the specifications of the form. It is therefore important for the manufacturers to establish a reliable connection between the pins and the inner frame and to provide a plug with a better characteristic of resistance to torque.

  Referring to Figure 1 of the accompanying drawings and described below, DE 38 40 140 C2 describes a spindle structure 1 comprising a collar 11 which is formed by rolling before being covered with the plastic to form the frame inside. After rolling, an annular groove 111 having a pattern is defined in the collar 11. The annular groove 111 comprises recessed portions and projecting portions, providing an improved connection between. the collar 11 and the plastic before complete hardening of the plastic material to form the inner frame.

  Referring to Figure 1 of the accompanying drawings and described below, DE 196 27 335 C1 describes a spindle structure 2 comprising a collar 21 which is formed by rolling before being covered by the plastic material to form the frame inside. After rolling, a plurality of annular grooves 211 having a pattern are defined in the collar 21. The respective annular groove 211 includes recessed portions and projecting portions, providing an improved bond between the collar 21 and the plastic prior to complete curing. plastic material to form the inner frame.

  In both pin structures of the prior art, the pins are covered by the plastic in a more compact manner prior to complete curing of the plastics material. In addition, the pins have an improved torque resistance characteristic after curing the plastic material. The pins do not loosen, ensuring safety during use of the plug.

  However, in the pin structures of the prior art, patterns in the annular groove intersect undesirably during repeated necessary processing, giving what are called intermingled patterns. In addition, the configuration of the annular groove having a pattern is affected by the stability and the life of the cutting tool. For example, the cutting tool dulls gradually after repeated operations to such a point that the depth of the patterns of one pin may not be the same as that of the patterns of a subsequent pin. As a result, it is difficult to control the depth of the patterns. In addition, the interwoven patterns, difficult to control, give an unstable quality and detract from the characteristic of resistance to torque. The cutting tool also deteriorates easily and therefore has a short life.

  The invention provides a pin structure comprising a collar, which has the characteristic that at least one chamfered surface is formed on the collar. The chamfered surface is not coplanar with the remaining circumferential face of the collar, forming angles to improve the torsional resistance of the spindle.

  The invention will be described in more detail with reference to the accompanying drawings by way of non-limiting examples and in which: FIG. 1 is a partly sectional plan view of a conventional spindle structure; Fig. 2 is a partly sectional plan view of another conventional pin structure; Figure 3 is a perspective view of a spindle structure according to the invention; Figure 4 is a sectional view taken along the line 4-4 of Figure 3; Fig. 5 is a partly sectional plan view of the spindle structure according to the invention, in which the collar of the spindle structure is covered with a plastics material; Figure 6 is a perspective view of a modified embodiment of the spindle structure according to the invention; Figure 7 is a sectional view taken along the line 7-7 of Figure 6; Fig. 8 is a partly sectional plan view of the pin structure of Fig. 6, in which the collar of the pin structure is covered with a plastics material; Fig. 9 is a perspective view of another modified embodiment of the spindle structure according to the invention; Figure 10 is a sectional view taken along the line 10-10 of Figure 9; FIG. 11 is a plan view, partly in section, of the pin structure of FIG. 9 in which the collar of the pin structure is covered with a plastic material; FIG. 12 is a perspective view of the plug According to the invention and an inner frame; and Figure 13 is a perspective view of the final product consisting of a plug according to the invention.

  With reference to FIGS. 3 and 4, a spindle structure 3 according to the invention generally comprises a collar 31 on one of its ends. The spindle structure 3 is cylindrical and formed of a conductive metal. At least two spindle structures 3 are placed in a mold, and a molten plastic material is poured into the mold, forming an inner frame 4 which is bonded to the pins 3. A semifini product is thus formed after the hardening of the plastics material. as shown in Fig. 12. A casing is then formed to constitute the final product constituting a plug 5, as shown in Fig. 13. The collar 31 is the part which is covered with the plastic material before the hardening of the plastic material to form the inner frame 4.

  The collar 31 has at least one chamfered face 311 which is formed by drilling, milling, cutting or planing. As illustrated in FIG. 4, in this embodiment, a chamfered face 311 is formed in the collar 31. This chamfered face 311 is not coplanar with the remaining circumferential face of the collar 31. Angles are thus formed to provide a increased resistance to twisting of pin 3; in other words, the angles produce an anti-torque or torque resistance effect. In addition, the chamfered face 311 is covered with a plastic material 312 (Fig. 5) to form the inner frame 4 in the injection molding process mentioned above. The bonding effect between the chamfered face 311 and the inner frame 4 is improved before and after the hardening of the plastic 312 to form the inner frame 4. This is due to the fact that the plastic layer 312 covering the bevelled face 311 is thicker than in the conventional method.

  Figures 6 to 8 illustrate a modified embodiment of the invention, in which the flange 31A of the pin 3A has two chamfered faces 311A which are parallel to each other. The bonding effect between the chamfered faces 311A and the inner frame 4 is improved before and after curing the plastic 312A to form the inner frame 4.

  Figures 9 to 11 illustrate another modified embodiment of the invention, in which the collar 31B of the pin 3B has four chamfered faces 311B. The four chamfered faces 311B are advantageously two pairs of opposed chamfered faces 311B. The bonding effect between the chamfered faces 311B and the inner frame 4 is improved before and after the hardening of the plastic 312B to form the inner frame 4.

  The quality of the plug having the pin structure 3, 3A, 3B according to the invention is stable due to the presence of the chamfered face (s) 311, 311A, 311B. The torque resistance characteristic of the plug meets the safety requirements. In addition, the frequency of replacement of the cutting tool to form the chamfered face (s) 311, 311A, 311B is low, prolonging the life of the cutting tool. The operating rate (actual operating time / pre-established working hours x 100%) is increased.

  It goes without saying that many modifications can be made to the spindle structure described and shown without departing from the scope of the invention.

Claims (3)

  A spindle structure for a plug, the pin structure (3; 3A; 3B) being cylindrical and formed of a conductive metal, and having a collar (31; 31A; 31B) covered with a plastics material (312; 312A; 312B) for forming an inner frame (4) in an injection molding process, the pin structure being characterized in that: the collar (31; 31A; 31B) has at least one chamfered face (311; 311A; 311B) which is not coplanar with the remaining circumferential face of the collar, forming angles to improve the torsional resistance of the spindle.   2. Spindle structure according to claim 1, characterized in that the collar (31A) has two chamfered faces (311A) which are parallel to each other.   3. Spindle structure according to claim 1, characterized in that the collar (31B) has two pairs of opposite chamfered faces (311B).