GB2318224A - Plug with expanding pin - Google Patents

Abstract

The present invention discloses an electrical pin 330 forming part of an electrical plug of known construction and configuration for providing power to an appliance having an electrical cord. The pin 330 has an elongate body which is receivable in a complementary socket of an existing electrical outlet, while two electrically conductive pins on the same plug are simultaneously receivable in respective sockets for establishing a power supply path for the appliance. Two metal spheres 334 lie in respective transverse passages 333 and 333' bounded by the body of the pin 330, and spaced laterally from each other. A screw 336 lying in a threaded, axial passage 331 intersecting the transverse passages 333 and 333' bears against the spheres 334. In use the advancing screw 336 urges the spheres 334 radially outwardly until they project partially beyond the outer peripheral region of the body of the pin 330 and bear frictionally against an adjacent portion of an associated electrical socket. A resilient ring may hold the spheres in place. The plug may also include a cover which prevents access to the power switch on the socket.

Description

Field of the invention This invention relates to a method of securing the continuity of a power supply to an electrical appliance. The invention extends to an electrical plug for practising this method.

Background to the invention Most commercially available electrical appliances are equipped with flexible electrical cords and plugs for drawing power from an electrical mains supply through complementary outlets. These outlets are usually equipped with switches for optionally interrupting the supply of electricity to the respective appliances.

Certain electrical appliances such as video cassette recorders rely on built-in, electrically driven clocks to operate according to a predetermined schedule. Any power interruption will accordingly disrupt the desired operation of the appliance, particularly when it does not have an electrical backup system of its own.

Other appliances such as burglary protection systems or personal computers require a continuous supply of electricity for operating in a standby mode. Any uncontrolled power interruptions will obviously defeat the normal operation of these appliances.

These interruptions may be attributable to inadvertent switching off of the power supply at a given socket. In other instances the plug of the affected appliance may be withdrawn either deliberately or unintentionally from its socket.

The present invention is directed at counteracting power interruptions of this nature.

Summary of the invention The present invention provides a method of securing the continuity of a power supply to an appliance having an electrical cord connected to a plug having at least a pair of electrically conductive pins and a passive pin which are simultaneously receivable in respective sockets of an existing electrical outlet, which includes the steps of - inserting the conductive pins into their respective sockets to establish a power supply path along the cord to the appliance; - urging a displacing means along an axial path within the passive pin towards a transverse passage containing at least one laterally displaceable locking element; and - displacing each locking element until it protrudes beyond the outer peripheral region of the pin towards an adjacent portion of its associated socket, thereby counteracting extraction of conductive pins from their respective sockets.

The meaning of the term "passive pin" in the context of the present description includes any pin on the plug which does not form part of the normal power supply path to the appliance. This may conveniently be an earthing pin for directing stray electrical currents from the appliance to earth. The meaning of this term extends, however, to any non-conducting locating formation on the plug, which is receivable in a complementary socket of a chosen electrical outlet.

The passive pin may be locked in position by urging a screw along a threaded passage extending obliquely through the passive pin, until the screw bears against an adjacent portion of its associated socket.

In a different application of the invention the earthing pin may be locked in position by laterally deforming a resilient frictional element which is held captive by the passive pin until the frictional element bears against an adjacent portion of its associated socket.

The method provided by the present invention may include a further step of restricting access to a switch for interrupting the power supply to an outlet in which the plug is located. This may be done by positioning a cover projecting from the plug over the switch, thereby denying uncontrolled access to the switch.

The invention extends to a plug for securing the continuity of a power supply through an electrical cord to an electrical appliance, which includes - an insulating body supporting at least a pair of electrically conductive pins for establishing a power supply path along the cord, and a longitudinal passive pin spaced from the conductive pins, all pins being simultaneously receivable in use in respective sockets of an existing electrical outlet; - at least one laterally displaceable locking element located in a transverse passage bounded by the passive pin; and - displacing means arranged along an axial path intersecting the transverse passage through the passive pin, to permit lateral displacement of each locking element during use by urging the displacement means into the transverse passage until each locking element protrudes beyond the outer peripheral region of the passive pin, thereby engaging the passive pin with an adjacent portion its associated electrical socket to counteract extraction of the conductive pins from their respective sockets.

The locking means may include a screw located in a threaded passage extending in oblique relationship to the earthing pin.

The screw is rotatable until it projects partially from a region of the earthing pin where it is capable of bearing against an adjacent portion of an associated electrical socket.

In further embodiment of the invention the locking means may include a displaceable frictional element which is held captive by the earthing pin. The earthing element is conveniently laterally displaceable by means of a screw co-operating directly or indirectly with the frictional element to urge it towards an adjacent portion of an associated electrical socket.

The invention further extends to a pin for use on a plug for securing the continuity of a power supply through an electrical cord to an appliance, which includes - an elongate body which is receivable in a complementary socket of an electrical outlet; - at least one laterally displaceable locking element lying in a transverse passage bounded by the body; and - displacing means arranged along an axial path within the passive pin for laterally displacing the locking element during use until it protrudes beyond the outer peripheral region of the body.

Brief description of the drawings The invention is described below by way of example in which - figure 1 shows an upper plan view of an electrical plug which preceded the present invention, without a cover, for ease of illustration; - figure 2 shows a sectional side elevational view taken along II-II on the plug of figure 1; and - figure 3 shows an earthing pin on an enlarged scale, for use in conjunction with a plug, substantially similar to the plug of figure 1; - figure 4 shows a front elevational, enlarged view of an earthing pin according to the present invention, suitable for use in conjunction with a plug of the kind shown in figure 1; - figure 5 shows a side elevational view of the pin of figure 4; - figure 6 shows a side elevational view of a further earthing pin according to the present invention; and - figure 7 shows a sectional plan view taken along VII - VII on the pin shown in figure 6.

Description of a preferred embodiment of the invention In figures 1 and 2 reference numeral 10 generally denotes an electrical plug for illustrative purposes only, which preceded the present invention. The plug 10 has a moulded plastic body 12 comprising a base plate 14 and upstanding edges 16. The plug 10 is generally symmetrical about the sectional reference line II-II shown in figure 1.

A complementary moulded plastic cover 18 fits on the upstanding edges 16, and is held in position by a locking screw 20, which passes through the base plate 14. The cover 18 is omitted from figure 1 to reveal the internal components of the plug 10.

Two brass pins 22 and 24 of substantially similar dimensions pass through the base plate 14. The pins 22 and 24 lie in perpendicular relationship to the base plate 14, and are arranged in symmetrical relationship to the reference line II-II. The pins 22 and 24 are respectively connectible in known fashion to a live and a neutral conductor of an electrical cord (not shown).

In use the cord passes through an aperture 26 between a pair of resilient, opposing locking plates 28 which are held captive by the body 12. The plates 28 are biased towards each other to grip the cord between them, thereby providing strain relief on the conductor connections within the body 12 whenever the cord is subjected to any external tension. The features described thus far are generally found with relatively minor adaptations in numerous commercially available electrical plugs.

The plug 10 further includes an elongate, metal earthing pin 30 spaced from the pins 22 and 24. A portion of the pin 30 lies within the body 12, and is connectible to the earth conductor of a commercially available electrical cord of the kind mentioned above.

The unconnected end 32 of the pin 30 projects from the body 12, and is slidingly receivable in a closely fitting metal sleeve 34 of an existing domestic electrical outlet (not further illustrated).

A threaded passage extends through the pin 30 in oblique relationship to its longitudinal axis. The openings to this passage lie on either side of the base plate 14. A locking screw 36 fitting into the oblique passage through the pin 30 is optionally rotatable by means of a screwdriver (not shown). The head of the screw 36 may be adapted to fit a customised tool to limit any unauthorised access.

In use the plug 10 is inserted into a selected electrical outlet for receiving the pins 22, 24 and 30 in known fashion. The screw 36 is then rotated until its tip bears against an adjacent portion of the sleeve 34. The frictional contact between the screw 36 and the sleeve 34 safeguards the plug 10 against inadvertent removal, and against unauthorised removal by persons not having the appropriate tool.

The plug is made even more effective against undesired power interruptions on an associated appliance by providing a switch cover 38 which is sandwiched between the body 12 and the cover 18 of the plug, as shown in figure 2. A portion of the cover 38 projects laterally from the body 12, extending across the usual location of an electrical switch (not shown).

When the plug 10 is locked in position in the manner described above, the cover 38 simultaneously denies other users normal access to the switch for interrupting the power supply to the plug 10. A pair of apertures 40 is conveniently provided for inserting a rod or similar tool for optionally activating or deactivating the switch by depressing the appropriate switch portion.

The plug 10 is conveniently provided with 3 soldering terminals 42 which are respectively crimped on to each of the pins 22, 24 and 30. Three commercially available metal oxide varistors 44 are connected between each pair of terminals 44, and lie within the body 12, adjacent to the base plate 14.

The varistors 44 are designed to protect appliances connected to the plug 10 against spurious overvoltage conditions. The varistors 44 are conveniently arranged to minimise any interfere with the normal connection of electrical conductors to their respective pins 22, 24 and 30.

Figure 3 shown an earthing pin 130 which is usable in similar fashion as the pin 30. The pin 130 has the same general external dimensions as the pin 30. The pin 130 has a corresponding oblique, threaded passage which in use commences above the base plate 14, and terminates in a transverse passage 132 extending across the diameter of the pin 130.

A pair of metal spheres 134, only one of which is visible in figure 3, is located in the passage 132. A locking screw 136 lying in the oblique passage is arranged between the spheres 134.

In use the screw 136 urges the spheres away from each other, and against a split ring 138, which is held captive on the cylindrical portion of the pin 130 in a corresponding groove.

The ring 138 is manufactured of a resilient metal, and is dimensioned so that in its relaxed state it does not protrude beyond the general outer surface of the cylindrical portion of the pin 130. This permits a plug equipped with the pin 130 to be inserted in an available electrical socket in known fashion.

When the plug is in place the locking screw 136 is operated in the manner described above to expand the ring 138 until it bears frictionally against an adjacent portion of its associated socket. The plug is hence similarly safeguarded against undesired removal.

Figures 4 and 5 depict an earthing pin 230 according to the present invention having a longitudinal metal body of circular cross section, terminating in a rounded tip1 232. In use the pin 230 conveniently forms part of a plug of the kind illustrated in figures 1 and 2. The pin 230 is accordingly so dimensioned as to fit slidingly into a metal sleeve 34 forming part of an existing electrical mains outlet (figure 2).

The pin 230 has an axial, threaded passage 231 extending from the end of the pin furthest from the rounded tip 232 towards an intermediate, transverse passage 233 passing through the body of the pin. The passage 233 intersects a peripheral, radial groove 235 in the outer periphery of the body of the pin 230, roughly mid-way between its ends.

A resilient deformable metal ring 238 nesting in the groove 235 is held captive by the body of the pin 230, thereby confining a pair of metal spheres 234 to the passage 235. The ring 238 in its relaxed state generally lies within the outer peripheral area of the body of the pin 2 4 to permit insertion of the pin into a corresponding socket of an existing electrical mains outlet.

The spheres 234 correspond generally to the spheres 134 of the pin 130 shown in figure 3, and fit with minimal lateral clearance into the passage 233. A locking screw 236 which co-operates with the thread of the axial passage 231 has a leading tip abutting against each of the spheres 234.

The spheres 234 simultaneously bear against the inner peripheral region of the ring 238. In use the advancing locking screw 236 accordingly urges the spheres 234 in opposing directions, thereby causing the ring 238 to expand radially until it bears frictionally against an adjacent metal sleeve of an existing electrical mains outlet (not shown).

The pin 230 is conveniently fitted to an electrical plug, such as the plug 10 shown in figures 1 and 2. The head of the locking screw 236 is preferably housed within the plug cover 18, and is accessible through a corresponding aperture (not shown) in the cover. The plug is hence secured against inadvertent or deliberate extraction from its associated electrical mains for as long as the screw 236 is maintained in its locking position.

The pin 230 is equipped with a partially threaded metal bush 240 which enters the body of the pin by way of a complementary threaded passage extending radially from the axial passage 231.

The bush 240 defines a bore 242 for receiving the termination of an existing earth wire (not shown) forming part of an electrical cord connected to an electrical appliance.

A fastening screw 242 fitting into a complementary threaded passage intersecting the bore of the bush 240 provides a convenient means for securing the termination of the earth wire mentioned above in known fashion.

Figure 6 and 7 depict a further pin 330 according to the present invention. The pin 330 has a longitudinal metal body of rectangular cross section terminating in a bevelled tip 332. In use the pin 330 conveniently constitutes an earthing pin for an electrical plug corresponding substantially to the plug 10 shown in figure 1. More particularly, the pin 330 is so dimensioned as to fit slidingly with minimal lateral clearance into a corresponding socket of an existing electrical mains outlet.

The pin 330 defines a threaded axial bore 331 commencing from the end of the pin body furthest from the tip 332, and intersecting a pair of blind passages 333 and 333' arranged in oblique, transverse relationship to the major external faces of the pin body. The passages 333 and 333' are spaced laterally from each other, as is evident from figure 7.

Two metal spheres 334 are respectively confined to the passages 333 and 333' by way of constrictions (not shown) towards the opening of each passage, formed in known fashion by a punching or pressing operation.

A screw 336 having external thread formations matching the threaded bore 331 has a shank extending into the region of intersection between the bore 331 and the passages 333 and 333'.

When the screw 336 is retracted the spheres 334 are able to lie entirely within the body of the pin 330 (figure 6).

As the tip of the screw 336 advances towards the spheres 334, however, it progressively urges the spheres apart until they project beyond the outer peripheral region of the body of the pin 330. This is most evident from figure 7 of the drawings.

In use the pin 330 is connected to the earth wire (not shown) of a 3 core electrical cable. The termination of the earth wire is receivable in known fashion in a socket 337 defined by a lateral protrusion from the body of the pin 330, where it is secured by a screw 338.

An electrical plug fitted with the pin 330 generally has a pair of electrically conductive pins (not shown) which are simultaneously insertable in known fashion into an existing socket of an electrical mains outlet (not shown). The screw 336 is withdrawn sufficiently to allow insertion of the pin 330 into an earthing sleeve corresponding to the metal sleeve 34 shown in figure 1 without any interference by the spheres 334.

Once the plug is in place the head df the screw 336, which projects beyond the body of the plug, remains accessible to permit the spheres 334 to be urged apart until they bear against adjacent portions of the earthing sleeve. The plug, together with its associated electrically conductive pins, accordingly remains locked in position until the screw 336 is released. The pin 330 effectively prevents the deliberate or inadvertent removal of the associated plug for as long as the screw 336 remains in position.

Protection of the power supply to an electrical appliance (not shown) fitted with a plug equipped with a pin 330 is conveniently enhanced by providing a switch cover similar to the cover 38 shown in figure 2.

A skilled reader will appreciate that the examples described above lend themselves to numerous modifications and adaptations falling within the broad definition set out under the summary of the invention. The scope of the appended claims should accordingly not be construed as being limited in any manner by the features of the preferred embodiments described above.

Claims (15)

Claims

1. A method of securing the continuity of a power supply to an appliance having an electrical cord connected to a plug having at least a pair of electrically conductive pins and a passive pin which are simultaneously receivable in respective sockets of an existing electrical outlet, which includes the steps of - inserting the conductive pins into their respective sockets to establish a power supply path along the cord to the appliance; - urging a displacing means along an axial path within the passive pin towards a transverse passage containing at least one laterally displaceable locking element; and - displacing each locking element until it protrudes beyond the outer peripheral region of the pin towards an adjacent portion of its associated socket, thereby counteracting extraction of the conductive pins from their respective sockets.

2. A method according to claim 1 in which each locking element bears against an inner surface of a resilient frictional element held captive on the passive pin, thereby radially deforming the frictional element until it bears against an inner peripheral region of the frictional element.

3. A method according to claim 1 or claim 2 in which at least two locking elements are urged apart by advancing a threaded screw into a space between the elements.

4. A method according to claim 3 in which the locking elements are urged apart along respective transverse passages spaced laterally from each other.

5. A method according to any one of the preceding claims which includes the further step of shielding an electrical switch associated with the electrical outlet into which the plug is inserted once the power supply path to the appliance has been established.

6. A plug for securing the continuity of a power supply through an electrical cord to an electrical appliance, which includes - an insulating body supporting at least a pair of electrically conductive pins for establishing a power supply path along the cord, and a longitudinal passive pin spaced from the conductive pins, all pins being simultaneously receivable in use in respective sockets of an existing electrical outlet; - at least one laterally displaceable locking element located in a transverse passage bounded by the passive pin; and - displacing means arranged within the passive pin on an axial path intersecting the transverse passage through the passive pin, to permit lateral displacement of each locking element during use by urging the displacing means into the transverse passage until each locking element protrudes beyond the outer peripheral region of the passive pin, thereby engaging the passive pin with an adjacent portion its associated electrical socket to counteract extraction of the conductive pins from their respective sockets.

7. A plug according to claim 6 which includes at least two displaceable locking elements.

8. A plug according to claim 7 in which the locking elements lie in respective transverse passages spaced laterally from each other.

9. A plug according to either claim 7 or claim 8 in which the displacing means includes a screw lying in a longitudinal, threaded bore in the passive pin, the tip of the screw being interposed between the displaceable elements to permit simultaneous lateral displacement of the elements as the screw advances into the bore.

10. A plug according to any one of claims 6 to 8 which further includes a resilient, radially deformable frictional element held captive by the passive pin, and overlying the transverse passage or passages, as the case may be, through the passive pin.

11. A plug according to any one of claims 6 to 10 in which the insulating body forms a shielding means for restricting access to a switch for interrupting the power supply to an electrical outlet once the conducting pins are located in their respective sockets.

12. A pin for use on a plug for securing the continuity of a power supply through an electrical cord to an appliance, which includes - an elongate body which is receivable in a complementary socket of an existing electrical outlet; - at least one laterally displaceable locking element lying in a transverse passage bounded by the body; and - displacing means arranged along an axial path within the body for laterally displacing each locking element during use until it protrudes beyond the outer peripheral region of the body.

13. A pin according to claim 12 which includes at least two displaceable locking elements.

14. A pin according to claim 13 in which the locking elements lie in respective transverse passages spaced laterally from each other.

15. A pin according to any one of claims 12 to 14 which further includes a resilient, radially deformable frictional element held captive by the body, and overlying the transverse passage or passages, as the case may be, in the body.