US3904263A - Multi-socket connection boards and contact pins therefor - Google Patents
Multi-socket connection boards and contact pins therefor Download PDFInfo
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- US3904263A US3904263A US339202A US33920273A US3904263A US 3904263 A US3904263 A US 3904263A US 339202 A US339202 A US 339202A US 33920273 A US33920273 A US 33920273A US 3904263 A US3904263 A US 3904263A
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- fixed contact
- contact elements
- socket
- contact
- pin
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R24/00—Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure
- H01R24/58—Contacts spaced along longitudinal axis of engagement
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R2103/00—Two poles
Definitions
- a multi-socket assembly comprises a stack of contact plates, insulating members between adjacent plates, and a plurality of electrically conductive contact rods extending perpendicularly through the stack of contact plates and interposed insulative members.
- Each insulating member is adapted to insulate the adjacent contact plates from each other and from the contact rods.
- the insulating members also define a plurality of sockets each adapted to receive a contact pin in one or another of two orientations, in order to connect a contact element to one or other of the contact rods depending on the orientation of the inserted pin.
- Each contact rod may be longitudinally split with the two halves insulated from one another, each half being associated with one only of the sockets flanking the rod.
- the contact pin comprises an electrically insulative elongate body having along one side a first contact strip; and on an opposite side is arranged a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the plate on one side of the socket and the second contact strip engages the contact rod on the opposite side of the socket.
- At least one of the contact strips is resilient and arranged to resist withdrawal of the pin from the socket.
- At least one of the pins may be longitudinally divided to provide double contacts.
- the first and second contact strips may be short-circuited together or electrically connected through an electrical compo nent housed in a grip portion of the pin.
- the present invention relates to a multi-socket electrical connection assembly board sometimes known as a matrix connection board, and to programme pins therefor.
- a multi-socket assembly comprising a stack of first fixed contact elements, insulating members between adjacent first fixed contact elements, a plurality of second fixed contact elements each extending perpendicularly through the stack of first fixed contact elements and inter osed insulating members, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to a reversible contact pin to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin.
- the reversible contact pin suitably comprises an in sulating base member, a non-resilient contact member on one side of the base member and spring-urging i contact means on the other side of the base member wherein, on insertion of the pin into a socket, the spring-urging contact means comes into contact with a first fixed contact element and urges the non-resilient contact member into contact with a second fixed contact element to effect electrical connection between the first and second fixed contact elements.
- Each of the first fixed contact elements suitably comprises a plate with a row of contacts extending away from the plate towards the adjacent insulating member and an aperture on either side of each contact, these apertures forming two rows extending parallel to the rows of contacts, and the second fixed contact elements extending through the aligned apertures.
- Each insulating member preferably comprises a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of each aperture of the other row, the insulating members are first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide a socket for receiving a pin. each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed Contact element and one un-insulated second fixed contact ele ment.
- the insulated second fixed contact element is nearer the socket entry than the un-insulated second fixed contact element. whereas on the other side of the socket the insulated second fixed contact element is further from the sockel entry than the un-insulated second fixed contact element.
- the pins suitably comprise an electrically insulated ciongate body having along one side face a first contact strip and along an opposite side face a second Contact strip, the contact strips being so arranged that when the pin is inserted in a socket, the first contact strip engages a contact of the first fixed contact element on one side of the socket, and the second contact strip engages the second fixed contact eiements on the opposite side 01 the socket, making electrical contact with the uninsulated second fixed contact element.
- At least one of the contact strips is suitably resilient and arranged to resist withdrawal of the pin from its socket, and at least one of the contact strips is advantageously divided longitudinally to provide doublecontacts.
- Each second fixed contact element suitably com prises an electrically conductive rod, and each rod is advantageousiy split longitudinally with the two halves insulated from one another, each half being associated with only one of the sockets fianking the second fixed contact element.
- each pin may be electrically and/or mechanically connected together, but may otherwise be connected together by an electrical component, preferably a diode. In this way the pin forms a diode pin which is advantageous in many applications of such devices.
- FIG. 1 is a perspective and partly exploded view 01 part of the multi-socket assembly
- FIG. 2 is a front view of an insulating member ir contact with the first fixed contact element
- FIG. 3 is a side view of an insulating member ir contact with a first fixed contact element
- FIG. 4 is a side view of a reversible contact pin
- FIG, 5 is a view of two reversible contact pins in serted into respective sockets one each direction.
- a multi-socket assembly board comprises a first fixec contact elements I in the form of contact plates, sec ond fixed contact elements 2 in the form of contac rods and insulating members 3.
- the plurality of firs contact elements 1 are arranged in a stack, with an insulating member 3 between adjacent first contact element 1.
- Each insulating member 3, shown in FIG. 2, is made of insulating plastics material, and has a series of aper tures 4 arranged in two rows, through which aperture: the contact rods 2 are inserted.
- a series of projection: 5 are provided, each projection 5 being associated witl an aperture 4.
- the apertures are arranged in two rows the top row 4a being associated with the series of pro jections 5a, and the bottom row 4b being associate: with the bottom row of projections Sb.
- Each of the pro jections 5a and 5b has a recess, the internal wall 0 which flanks part of the circumference of the corre sponding hole 4a or 5a.
- the recesses of the projections 5a are situated to the left of the corresponding holes 4a
- the recesses of the projections 5b are situated to the right of the corresponding apertures 4b.
- the insulating member has a flange 6 (shown in FIG. 3) adapted to come into contact with the adjacent contact plate 1.
- the entire periphery of the opening of the sockets of the assembly is thus composed of insulating material, as shown in the rear part of FIG. 1.
- Apertures 8 of the contact plates 1 fit over the outside edges of the annular projecting flanges 7.
- the contact rods 2 pass through the holes 9 of the insulating member 3 (shown in FIG. 3), and are thus insulated from the contact plates 1.
- Each contact plate 1 has a series of projections forming contact 10, each of which is adapted to fit into a corresponding well 11 in the body of the adjacent insulating member 3.
- a reversible contact pin 12 shown in FIG. 4 comprises a base member 13, l-i-shaped in cross-section and is made of an electrically insulative material, suitably a plastics material.
- a non-resilient contact strip lies in a recess on one side of the base member 13 and has two outward protrusions 15 and 16 along the length of its body.
- a resilient contact strip 17 is attached to the other side of the base member 13 from the non-resilient contact strip and is mechanically and electrically connected thereto, as shown at 14.
- the non-resilient contact member part 16 is prevented from making contact with rod 2d, but part 15 is urged into contact with rod 26, thus making electrical connection between contact elements 10 and 2c.
- the current always flows through the pin in the same direction.
- each socket provides the possibil ity of electrical connection between a first fixed contact element and either of two second fixed contact elements, depending on the direction of the pin when inserted.
- the contact strips l5. l6 and 17 of the programme pins may be longitudinally split as shown in FIG. 4A to provide double-contacts. Such contacts are particularly advantageous in low current applications.
- the heads of the programme pins shown in the drawing are in the form of short frusto-conical members, but for most applications, it will be convenient to provide a cylindrical grip portion whose length is more nearly equal to that of the part of the pin bearing the contacts.
- the contact strips on the two sides of each pin have been shown mechanically connected together and thus electrically short-circuited together, in some applications, it may be convenient to split the two sets of contact strips, and possible to connect them together through an electrical component.
- a particular example of this is the provision of a diode connecting together the two contact strips to provide a diode pin which is advantageous in many applications of such devices as shown in FIG. 4B.
- the second contact element rods 2 may be longitudinally divided as shown in FIG. SA on a plane which is perpendicular to the plane of FIG. 5 and parallel to the axis of the programme pins.
- the two halves are insulated from one another, and in this way each socket is provided with four independent contacts, each formed by one half of a contact rod. The flexibility of an arrangement with the rods divided in this way is apparent.
- the contacts 10 of the first contact plates 1 are shown as cylindrical projections sweated into the plate. Another arrangement consists in forming these contacts 10 integrally with the plate, for example suitably shaped and arranged projections.
- the front surface of the socket assembly may be covered with a facia provided with an aperture for receiving each programme pin aligned with the sockets of the assembly.
- a facia can carry markings identifying the sockets for facilitating the setting up of a particular interconnection with the programme pins.
- the hereinbefore described embodiment provides a multi-socket assembly in which the contact elements have no moving parts, with the consequent advantage that the possible break-down of spring contacts within the assembly is avoided.
- An assembly as hereinbefore described can be made to different matrix dimensions, if required, e.g. 10 X 10 sockets, l8 X 32 sockets, etc., or may include more than two layers of first and/or second contact elements, if this is desired.
- a multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members interposed between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, said first fixed contact elements each comprising
- the insulating members each comprise a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements, and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of the aperture of the other row, the insulating members and first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide the sockets for receiving the contact pins, each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed contact element, and one un-insulated second fixed contact element.
- An assembly according to claim 2 in combination with a contact pin comprising an electrically insulated elongate body having along one side face a first contact strip and along an opposite side face a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the first fixed contact element on one side only of the socket and the second contact strip engages the second fixed contact elements on the opposite side of the socket, making electrical contact with the uninsulated second fixed contact element.
- a multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members interposed between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, each second fixed contact element comprising an electrical
- a multi-socket assembly comprising a stack of laminar first fixed contact elements. each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, wherein the first fixed contact elements each comprise a plate with a row of contacts extending away from the plate towards the adjacent insulating member, and an aperture on either side of each contact, these apertures forming two rows extending parallel to the row of contacts, the second fixed contact elements extending through the aligned apertures, and wherein the insulating members each comprise a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one-side, the base having
- a multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, in which each second fixed contact element comprises an electrically
- a multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insu lating members each defining a plurality of sockets each adapted to receive a contact pin in one or the other of two orientations to connect a first fixed contact element to one or the other of two second fixed contact elements depending on the orientation of the inserted pin, wherein the first fixed fixed contact
- a contact pin comprising an electrically insulated elongated body having along one side face a first contact strip and along an opposite side face a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the first fixed contact element one side only of the socket and the second contact strip engages the second fixed contact elements on the opposite side of the socket, making electrical contact with the uninsulated second contact element, wherein at least one of the contact strips is longitudinally divided to provide double contacts.
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Abstract
A multi-socket assembly comprises a stack of contact plates, insulating members between adjacent plates, and a plurality of electrically conductive contact rods extending perpendicularly through the stack of contact plates and interposed insulative members. Each insulating member is adapted to insulate the adjacent contact plates from each other and from the contact rods. The insulating members also define a plurality of sockets each adapted to receive a contact pin in one or another of two orientations, in order to connect a contact element to one or other of the contact rods depending on the orientation of the inserted pin. Each contact rod may be longitudinally split with the two halves insulated from one another, each half being associated with one only of the sockets flanking the rod. The contact pin comprises an electrically insulative elongate body having along one side a first contact strip; and on an opposite side is arranged a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the plate on one side of the socket and the second contact strip engages the contact rod on the opposite side of the socket. At least one of the contact strips is resilient and arranged to resist withdrawal of the pin from the socket. At least one of the pins may be longitudinally divided to provide double contacts. The first and second contact strips may be short-circuited together or electrically connected through an electrical component housed in a grip portion of the pin.
Description
United States Patent [1 Norman Sept. 9, 1975 MULTl-SOCKET CONNECTION BOARDS AND CONTACT PINS THEREFOR John Phillip Norman, 41 Trumpinton Rd., Forest Gate, London E7, England 22 Filed: Mar. 8, 1913 211 Appl. No.: 339,202
[76] Inventor:
[56] References Cited UNITED STATES PATENTS 296,253 4/1884 Vail 339/18 C 2,449,450 9/1948 Carlson... 339/198 S X 2,905,920 9/1959 Lutton 339/17 3,205,469 9/1965 Frank et a] 339/252 P X 3,212,048 10/1965 Rosenberg et a1. 339/18 C 3,223,957 12/1965 Cannon r 1 339/18 C 3,345,599 10/1967 Henschen et a1. 339/18 C 3,353,l38 11/1967 Loose 339/18 C Primary ExaminerRoy D. Frazier Assistant Examiner-Terrell P. Lewis Attorney, Agent, or Firm0rrin M. Haugen [57] ABSTRACT A multi-socket assembly comprises a stack of contact plates, insulating members between adjacent plates, and a plurality of electrically conductive contact rods extending perpendicularly through the stack of contact plates and interposed insulative members. Each insulating member is adapted to insulate the adjacent contact plates from each other and from the contact rods. The insulating members also define a plurality of sockets each adapted to receive a contact pin in one or another of two orientations, in order to connect a contact element to one or other of the contact rods depending on the orientation of the inserted pin. Each contact rod may be longitudinally split with the two halves insulated from one another, each half being associated with one only of the sockets flanking the rod. The contact pin comprises an electrically insulative elongate body having along one side a first contact strip; and on an opposite side is arranged a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the plate on one side of the socket and the second contact strip engages the contact rod on the opposite side of the socket. At least one of the contact strips is resilient and arranged to resist withdrawal of the pin from the socket. At least one of the pins may be longitudinally divided to provide double contacts. The first and second contact strips may be short-circuited together or electrically connected through an electrical compo nent housed in a grip portion of the pin.
11 Claims, 5 Drawing Figures PATENTED SEP 975 SHEET 1 OF 2 PATENTED SEP 91975 saw 2 0 2 MULTI-SOCKET CONNECTION BOARDS AND CONTACT PINS THEREFOR BACKGROUND OF THE INVENTION The present invention relates to a multi-socket electrical connection assembly board sometimes known as a matrix connection board, and to programme pins therefor.
ln electrical and electronic apparatus where the eiectrical connections within the apparatus require to be altered from time to time, it is advantageous to provide a matrix connection board whereby the alteration of such connections can be efiected quickly.
SUMMARY OF THE INVENTION According to the present invention, there is provided a multi-socket assembly comprising a stack of first fixed contact elements, insulating members between adjacent first fixed contact elements, a plurality of second fixed contact elements each extending perpendicularly through the stack of first fixed contact elements and inter osed insulating members, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to a reversible contact pin to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin.
The reversible contact pin suitably comprises an in sulating base member, a non-resilient contact member on one side of the base member and spring-urging i contact means on the other side of the base member wherein, on insertion of the pin into a socket, the spring-urging contact means comes into contact with a first fixed contact element and urges the non-resilient contact member into contact with a second fixed contact element to effect electrical connection between the first and second fixed contact elements.
Each of the first fixed contact elements suitably comprises a plate with a row of contacts extending away from the plate towards the adjacent insulating member and an aperture on either side of each contact, these apertures forming two rows extending parallel to the rows of contacts, and the second fixed contact elements extending through the aligned apertures.
Each insulating member preferably comprises a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of each aperture of the other row, the insulating members are first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide a socket for receiving a pin. each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed Contact element and one un-insulated second fixed contact ele ment.
Preferably, on one side of each socket the insulated second fixed contact element is nearer the socket entry than the un-insulated second fixed contact element. whereas on the other side of the socket the insulated second fixed contact element is further from the sockel entry than the un-insulated second fixed contact element.
The pins suitably comprise an electrically insulated ciongate body having along one side face a first contact strip and along an opposite side face a second Contact strip, the contact strips being so arranged that when the pin is inserted in a socket, the first contact strip engages a contact of the first fixed contact element on one side of the socket, and the second contact strip engages the second fixed contact eiements on the opposite side 01 the socket, making electrical contact with the uninsulated second fixed contact element.
At least one of the contact strips is suitably resilient and arranged to resist withdrawal of the pin from its socket, and at least one of the contact strips is advantageously divided longitudinally to provide doublecontacts.
Each second fixed contact element suitably com prises an electrically conductive rod, and each rod is advantageousiy split longitudinally with the two halves insulated from one another, each half being associated with only one of the sockets fianking the second fixed contact element.
The first and second contact strips of each pin may be electrically and/or mechanically connected together, but may otherwise be connected together by an electrical component, preferably a diode. In this way the pin forms a diode pin which is advantageous in many applications of such devices.
A multi-socket assembly and a reversible contact pin therefor will now be more fully described by way of example and with reference to the drawing.
BRIEF DESCRIPTION OF THE DRAWING FIG. 1 is a perspective and partly exploded view 01 part of the multi-socket assembly;
FIG. 2 is a front view of an insulating member ir contact with the first fixed contact element;
FIG. 3 is a side view of an insulating member ir contact with a first fixed contact element;
FIG. 4 is a side view of a reversible contact pin;
FIG, 5 is a view of two reversible contact pins in serted into respective sockets one each direction.
DESCRIPTION OF THE PREFERRED EMBODIMENT A multi-socket assembly board comprises a first fixec contact elements I in the form of contact plates, sec ond fixed contact elements 2 in the form of contac rods and insulating members 3. The plurality of firs contact elements 1 are arranged in a stack, with an insulating member 3 between adjacent first contact element 1.
Each insulating member 3, shown in FIG. 2, is made of insulating plastics material, and has a series of aper tures 4 arranged in two rows, through which aperture: the contact rods 2 are inserted. A series of projection: 5 are provided, each projection 5 being associated witl an aperture 4. The apertures are arranged in two rows the top row 4a being associated with the series of pro jections 5a, and the bottom row 4b being associate: with the bottom row of projections Sb. Each of the pro jections 5a and 5b has a recess, the internal wall 0 which flanks part of the circumference of the corre sponding hole 4a or 5a. As shown in FIG. 2, the recesses of the projections 5a are situated to the left of the corresponding holes 4a, and the recesses of the projections 5b are situated to the right of the corresponding apertures 4b.
The insulating member has a flange 6 (shown in FIG. 3) adapted to come into contact with the adjacent contact plate 1. The entire periphery of the opening of the sockets of the assembly is thus composed of insulating material, as shown in the rear part of FIG. 1. On the other side of the insulating member 3 from the projections 5 there is provided an annular projecting flange 7 associated with each aperture 4. Apertures 8 of the contact plates 1 fit over the outside edges of the annular projecting flanges 7. The contact rods 2 pass through the holes 9 of the insulating member 3 (shown in FIG. 3), and are thus insulated from the contact plates 1.
Each contact plate 1 has a series of projections forming contact 10, each of which is adapted to fit into a corresponding well 11 in the body of the adjacent insulating member 3.
A reversible contact pin 12, shown in FIG. 4, comprises a base member 13, l-i-shaped in cross-section and is made of an electrically insulative material, suitably a plastics material. A non-resilient contact strip lies in a recess on one side of the base member 13 and has two outward protrusions 15 and 16 along the length of its body. A resilient contact strip 17 is attached to the other side of the base member 13 from the non-resilient contact strip and is mechanically and electrically connected thereto, as shown at 14.
When in operation, as shown in H0. 5, a reversible contact pin is inserted into a socket, the resilient contact 17 comes into contact with the associated first contact element and urges the non-resilient contact strip towards the opposite wall of the socket. in the case of the contact pin 12a, the non-resilient contact member strip is prevented from making contact with the rod 20 by reason of the intervening wall of the protrusion 5a, but the nonresilient contact member part 16 is urged into contact with rod 2b, thus making electrical connection between contact elements 10 and 2b.
In the case of the contact pin 12b, the non-resilient contact member part 16 is prevented from making contact with rod 2d, but part 15 is urged into contact with rod 26, thus making electrical connection between contact elements 10 and 2c. Thus the current always flows through the pin in the same direction.
it will be seen that each socket provides the possibil ity of electrical connection between a first fixed contact element and either of two second fixed contact elements, depending on the direction of the pin when inserted.
The multi-socket assembly and associated programme pins just described are susceptible to a number of modifications and adaptations.
The contact strips l5. l6 and 17 of the programme pins may be longitudinally split as shown in FIG. 4A to provide double-contacts. Such contacts are particularly advantageous in low current applications.
The heads of the programme pins shown in the drawing are in the form of short frusto-conical members, but for most applications, it will be convenient to provide a cylindrical grip portion whose length is more nearly equal to that of the part of the pin bearing the contacts. While in the figures, the contact strips on the two sides of each pin have been shown mechanically connected together and thus electrically short-circuited together, in some applications, it may be convenient to split the two sets of contact strips, and possible to connect them together through an electrical component. A particular example of this is the provision of a diode connecting together the two contact strips to provide a diode pin which is advantageous in many applications of such devices as shown in FIG. 4B.
The second contact element rods 2 may be longitudinally divided as shown in FIG. SA on a plane which is perpendicular to the plane of FIG. 5 and parallel to the axis of the programme pins. The two halves are insulated from one another, and in this way each socket is provided with four independent contacts, each formed by one half of a contact rod. The flexibility of an arrangement with the rods divided in this way is apparent.
In the figures, the contacts 10 of the first contact plates 1 are shown as cylindrical projections sweated into the plate. Another arrangement consists in forming these contacts 10 integrally with the plate, for example suitably shaped and arranged projections.
Although not shown in the figures, the front surface of the socket assembly may be covered with a facia provided with an aperture for receiving each programme pin aligned with the sockets of the assembly. Such a facia can carry markings identifying the sockets for facilitating the setting up of a particular interconnection with the programme pins.
The hereinbefore described embodiment provides a multi-socket assembly in which the contact elements have no moving parts, with the consequent advantage that the possible break-down of spring contacts within the assembly is avoided.
An assembly as hereinbefore described can be made to different matrix dimensions, if required, e.g. 10 X 10 sockets, l8 X 32 sockets, etc., or may include more than two layers of first and/or second contact elements, if this is desired.
1 claim:
1. A multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members interposed between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, said first fixed contact elements each comprising a plate with a row of contacts extending away from the plate towards the adjacent insulating member, and an aperture on either side of each contact, said apertures forming two rows extending parallel to the row of contacts, and said second fixed contact elements extending through the aligned apertures,
2. An assembly according to claim 1, wherein the insulating members each comprise a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements, and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of the aperture of the other row, the insulating members and first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide the sockets for receiving the contact pins, each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed contact element, and one un-insulated second fixed contact element.
3. An assembly according to claim 2 in combination with a contact pin comprising an electrically insulated elongate body having along one side face a first contact strip and along an opposite side face a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the first fixed contact element on one side only of the socket and the second contact strip engages the second fixed contact elements on the opposite side of the socket, making electrical contact with the uninsulated second fixed contact element.
4. The combination according to claim 3, wherein at least one of the contact strips is resilient and arranged to resist withdrawal of the pin when inserted in a socket.
5. The combination according to claim 3, wherein the first and second contact strips are short-circuited together.
6. The combination according to claim 3, wherein the first and second contact strips are electrically connected together through an electrical component housed in a grip portion of the pin.
7. The combination according to claim 6, wherein the component is a diode.
8. A multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members interposed between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, each second fixed contact element comprising an electrically conductive rod which is longitudinally split with the two halves insulated from one another, each half being associated with one only of the sockets flanking the rod.
9. A multi-socket assembly comprising a stack of laminar first fixed contact elements. each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, wherein the first fixed contact elements each comprise a plate with a row of contacts extending away from the plate towards the adjacent insulating member, and an aperture on either side of each contact, these apertures forming two rows extending parallel to the row of contacts, the second fixed contact elements extending through the aligned apertures, and wherein the insulating members each comprise a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one-side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements, and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of the aperture of the other row, the insulating members and first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide the sockets for receiving the contact pins, each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed contact element, and one un-insulated second fixed contact element, wherein on one side of each socket the insulated second fixed contact element is nearer the socket entry than the un-insulated second fixed contact element, while on the other side of the socket, the insulated second fixed contact element is further from the socket entry than the un-insulated second fixed contact element.
10. A multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, in which each second fixed contact element comprises an electrically conductive rod which is longitudinally split with the two halves insulated from one another, each half being associated with one only of the sockets flanking the rod, wherein each rod is split on a plane parallel to the socket axes.
11. In combination:
a. a multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insu lating members each defining a plurality of sockets each adapted to receive a contact pin in one or the other of two orientations to connect a first fixed contact element to one or the other of two second fixed contact elements depending on the orientation of the inserted pin, wherein the first fixed contact elements each comprise a plate with a row of contacts extending away from the plate towards the adjacent insulating member, and an aperture on either side of each contact, these apertures forming two rows extending parallel to the row of contacts, the second fixed contact elements extending through the aligned apertures, and wherein the insulating members each comprise a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements, and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of the aperture of the other row, the insulating members and first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide the sockets for receiving the contact pins, each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed contact element, and one un-insulated second fixed contact element; and
b. a contact pin comprising an electrically insulated elongated body having along one side face a first contact strip and along an opposite side face a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the first fixed contact element one side only of the socket and the second contact strip engages the second fixed contact elements on the opposite side of the socket, making electrical contact with the uninsulated second contact element, wherein at least one of the contact strips is longitudinally divided to provide double contacts.
UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION PATENT NO. 3,904,263 DATED September 9 1975 INVENTOR(S) John Philip Norman H is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown betow- Item 76, "John Phillip Norman" should read John Philip Norman Column 8, line 33, sub-paragraph (b) of Claim 11, after "second" insert fixed Signed and Scaled this tenth Day Of February 1976 [SEAL] Arrest.-
RUTH C. MASON C. MARSHALL DANN Arresting Officer (ummissinner nj'Parents and Trademarks
Claims (11)
1. A multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members interposed between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, said first fixed contact elements each comprising a plate with a row of contacts extending away from the plate towards the adjacent insulating member, and an aperture on either side of each contact, said apertures forming two rows extending parallel to the row of contacts, and said second fixed contact elements extending through the aligned apertures.
2. An assembly according to claim 1, wherein the insulating members each comprise a planar base having projections standing away from the base to space the member from the adjacent firSt fixed contact element on one side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements, and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of the aperture of the other row, the insulating members and first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide the sockets for receiving the contact pins, each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed contact element, and one un-insulated second fixed contact element.
3. An assembly according to claim 2 in combination with a contact pin comprising an electrically insulated elongate body having along one side face a first contact strip and along an opposite side face a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the first fixed contact element on one side only of the socket and the second contact strip engages the second fixed contact elements on the opposite side of the socket, making electrical contact with the un-insulated second fixed contact element.
4. The combination according to claim 3, wherein at least one of the contact strips is resilient and arranged to resist withdrawal of the pin when inserted in a socket.
5. The combination according to claim 3, wherein the first and second contact strips are short-circuited together.
6. The combination according to claim 3, wherein the first and second contact strips are electrically connected together through an electrical component housed in a grip portion of the pin.
7. The combination according to claim 6, wherein the component is a diode.
8. A multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members interposed between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, each second fixed contact element comprising an electrically conductive rod which is longitudinally split with the two halves insulated from one another, each half being associated with one only of the sockets flanking the rod.
9. A multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, wherein the first fixed contact elemenTs each comprise a plate with a row of contacts extending away from the plate towards the adjacent insulating member, and an aperture on either side of each contact, these apertures forming two rows extending parallel to the row of contacts, the second fixed contact elements extending through the aligned apertures, and wherein the insulating members each comprise a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements, and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of the aperture of the other row, the insulating members and first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide the sockets for receiving the contact pins, each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed contact element, and one un-insulated second fixed contact element, wherein on one side of each socket the insulated second fixed contact element is nearer the socket entry than the un-insulated second fixed contact element, while on the other side of the socket, the insulated second fixed contact element is further from the socket entry than the un-insulated second fixed contact element.
10. A multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pin in one or other of two orientations to connect a first fixed contact element to one or other of two second fixed contact elements depending on the orientation of the inserted pin, in which each second fixed contact element comprises an electrically conductive rod which is longitudinally split with the two halves insulated from one another, each half being associated with one only of the sockets flanking the rod, wherein each rod is split on a plane parallel to the socket axes.
11. In combination: a. a multi-socket assembly comprising a stack of laminar first fixed contact elements, each having length and width dimensions significantly greater than the thickness dimension and defining a plate with a major plane lying within said length and width dimension and with the major planes of each first fixed contact element being disposed generally parallel, one to another, insulating members between adjacent stacked first fixed contact elements, a plurality of second fixed contact elements each extending through the stack of first fixed contact elements and interposed insulating members and extending in a direction perpendicular to the major planes of said stack of first fixed contact elements, each insulating member between two adjacent first fixed contact elements being adapted to insulate them from each other and being further adapted to insulate the first fixed contact elements from the second fixed contact elements, the insulating members each defining a plurality of sockets each adapted to receive a contact pIn in one or the other of two orientations to connect a first fixed contact element to one or the other of two second fixed contact elements depending on the orientation of the inserted pin, wherein the first fixed contact elements each comprise a plate with a row of contacts extending away from the plate towards the adjacent insulating member, and an aperture on either side of each contact, these apertures forming two rows extending parallel to the row of contacts, the second fixed contact elements extending through the aligned apertures, and wherein the insulating members each comprise a planar base having projections standing away from the base to space the member from the adjacent first fixed contact element on one side, the base having an aperture aligned with each aperture of the adjacent first fixed contact elements, and an insulating projection flanking a first side of each aperture of one row and an insulating projection flanking the opposite side of the aperture of the other row, the insulating members and first fixed contact elements being so arranged that the aligned spaces between adjacent apertures of each row provide the sockets for receiving the contact pins, each socket being flanked on each side by a contact of the first fixed contact element, one insulated second fixed contact element, and one un-insulated second fixed contact element; and b. a contact pin comprising an electrically insulated elongated body having along one side face a first contact strip and along an opposite side face a second contact strip, the contact strips being so arranged that when the pin is inserted in a socket the first contact strip engages a contact of the first fixed contact element one side only of the socket and the second contact strip engages the second fixed contact elements on the opposite side of the socket, making electrical contact with the un-insulated second contact element, wherein at least one of the contact strips is longitudinally divided to provide double contacts.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US339202A US3904263A (en) | 1973-03-08 | 1973-03-08 | Multi-socket connection boards and contact pins therefor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US339202A US3904263A (en) | 1973-03-08 | 1973-03-08 | Multi-socket connection boards and contact pins therefor |
Publications (1)
Publication Number | Publication Date |
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US3904263A true US3904263A (en) | 1975-09-09 |
Family
ID=23327953
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US339202A Expired - Lifetime US3904263A (en) | 1973-03-08 | 1973-03-08 | Multi-socket connection boards and contact pins therefor |
Country Status (1)
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US (1) | US3904263A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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US5613858A (en) * | 1994-12-14 | 1997-03-25 | Dell U.S.A., L.P. | Compact circuit board switching apparatus and associated methods |
EP0874528A2 (en) * | 1997-04-21 | 1998-10-28 | Oki Electric Industry Co., Ltd. | Connection pin |
US6099332A (en) * | 1998-05-26 | 2000-08-08 | The Whitaker Corp. | Connector with adaptable insert |
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US296253A (en) * | 1884-04-01 | Electric switch-board | ||
US2449450A (en) * | 1943-04-03 | 1948-09-14 | Aircraft Marine Prod Inc | Electrical connector |
US2905920A (en) * | 1956-04-11 | 1959-09-22 | Acf Ind Inc | Module assembly |
US3205469A (en) * | 1961-07-12 | 1965-09-07 | Gen Precision Inc | Pin board |
US3212048A (en) * | 1963-04-30 | 1965-10-12 | Ind Electronic Hardware Corp | Multilayer circuitry with spring strips |
US3223957A (en) * | 1963-07-22 | 1965-12-14 | John W Cannon | Three-dimensional plugboard circuit selector |
US3345599A (en) * | 1964-11-18 | 1967-10-03 | Amp Inc | Cross-connecting board |
US3353138A (en) * | 1965-03-22 | 1967-11-14 | Amp Inc | Programming system |
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1973
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US296253A (en) * | 1884-04-01 | Electric switch-board | ||
US2449450A (en) * | 1943-04-03 | 1948-09-14 | Aircraft Marine Prod Inc | Electrical connector |
US2905920A (en) * | 1956-04-11 | 1959-09-22 | Acf Ind Inc | Module assembly |
US3205469A (en) * | 1961-07-12 | 1965-09-07 | Gen Precision Inc | Pin board |
US3212048A (en) * | 1963-04-30 | 1965-10-12 | Ind Electronic Hardware Corp | Multilayer circuitry with spring strips |
US3223957A (en) * | 1963-07-22 | 1965-12-14 | John W Cannon | Three-dimensional plugboard circuit selector |
US3345599A (en) * | 1964-11-18 | 1967-10-03 | Amp Inc | Cross-connecting board |
US3353138A (en) * | 1965-03-22 | 1967-11-14 | Amp Inc | Programming system |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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US5613858A (en) * | 1994-12-14 | 1997-03-25 | Dell U.S.A., L.P. | Compact circuit board switching apparatus and associated methods |
EP0874528A2 (en) * | 1997-04-21 | 1998-10-28 | Oki Electric Industry Co., Ltd. | Connection pin |
EP0874528A3 (en) * | 1997-04-21 | 2001-04-04 | Oki Electric Industry Co., Ltd. | Connection pin |
US6099332A (en) * | 1998-05-26 | 2000-08-08 | The Whitaker Corp. | Connector with adaptable insert |
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