US243100A - Electric switch-board - Google Patents

Electric switch-board Download PDF

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US243100A
US243100A US243100DA US243100A US 243100 A US243100 A US 243100A US 243100D A US243100D A US 243100DA US 243100 A US243100 A US 243100A
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rods
series
rod
line
contact
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02BBOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
    • H02B1/00Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
    • H02B1/20Bus-bar or other wiring layouts, e.g. in cubicles, in switchyards
    • H02B1/207Cross-bar layouts
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L2224/00Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
    • H01L2224/01Means for bonding being attached to, or being formed on, the surface to be connected, e.g. chip-to-package, die-attach, "first-level" interconnects; Manufacturing methods related thereto
    • H01L2224/42Wire connectors; Manufacturing methods related thereto
    • H01L2224/47Structure, shape, material or disposition of the wire connectors after the connecting process
    • H01L2224/48Structure, shape, material or disposition of the wire connectors after the connecting process of an individual wire connector
    • H01L2224/4805Shape
    • H01L2224/4809Loop shape
    • H01L2224/48091Arched

Definitions

  • the invention consists in the use of several line-rods or several series of line-rods crossiii g several series of insulated rods, iii combination with a number of contact-pins forcennecting the liii ⁇ e and insulated rodsas many contact-pins for each line-rod as there are series of insulated rods, one appropriated to each series.
  • each line-rod has an independent movement over all the fixed rods, and is provided with a number of contact-pins, one for each series ot' fixed rods. for Inakiiig metallic connection with any rod thereof'.
  • Figure l is a plan of said switcli-board 5 Fig. 2, an end elevation of the same, and Fig. 3 a longitudinal section on one of the line-rods.
  • A is a table, and B a frame rigidly secured thereto, both of insulating material.
  • R It R are square metallic rods or bars sliding longitudinally in slots s s s in the ends of the frame, while r r r/ are small wire rods Xed in the sides of the frame, a cap-bar, a', of insulating material holding ⁇ the said movable rods in their respective slots.
  • G is a ground-plate common to all the mov7 able rods by means of pins p', with one ot' which normally in contact withv said groundplate each movable rod is provided.
  • S S S' are springs attached to the frame and workingoiie against each movable rod to maintain the said normal position of the pins p', the rods R having also each a second pin, p2, serving as a stop-pin to limit its motion in opposition to its spring S.
  • Each movable rod is connected with an independent electric circuit through a spring-jack consisting of a yokeshaped bracket, P, a spring, t, and a metallic plate, P2, the yoke of the bracket P einbracing the movable rod, as shown, while the linewire is attached to the plate P2.
  • the iixed rods r r' r are divided into several series, which, in practice, are designated by letters A B (l l) E F.
  • the movable rods R of each series are numbered 1 2 3, Sto. I
  • Each movable rod R' is provided with a number of contact-pins, c', equal to the number of series of iixed rods i", one for each series, and near each ot' these contactpiiis is stamped upon the movable rod, as shown, a letter corresponding to the letter of the series of fixed rods lying next beyond and with which it is to work.
  • Each contact-pin has a head above its rod and a collar below, aiidis provided with a coiled spring, by which, in its normal position, it is held wholly above the plane ot' the rods 1"; but each contact-pin is of such length that when pushed in by the hand of the operator against the force of the coiled spring it may pass between two of the fixed rods r.
  • the spring S When a contact-pin is thus pushed in between two iiXed rods the spring S will force and lock the pin against that fixed rod of the two which is more remote from the spring.
  • the pin may be released from contact with such iixed rod by a slight movement of the movable rod against the spring S.
  • each movable rod has etched upon it a scale graduated to the distances between the centers of the xed rods i", the latter being of uniform diameter and at uniform distances apart.
  • each operator can control about fifty line or movable rods, but it is also found that the number of fixed or switch rods required at an office is a small percentage of the number of line-rods. I therefore make all the xed rods common to all the operators-that is, all the line-rods cross all the xed rods-but I divide the fixed rods into as many series as there are operators or series of line-rods, and I appropriate a series ot' xed rods to each series of line-rods, as shown in the drawings, where series A ofthe iixed rods may be considered as belonging to a series of line-rods under the control of a single operator and known as board A, fixed rods IOO in series B belonging to a series of line-rods under the control of another operator and known as board B, &c.
  • each operator will make connection between any two lineerods under his own control by means ot' the series ot' fixed rods especially appropriated to him, and when a connection is to be made between one ot' his own line-rods and a line-rod under the control ot' another operator he will connect his said line-rod with one of his own fixed rods, and then cause the other operator to connect the other line-rod with the same fixed rod, each operator using his own contact-pin which is appropriated to the series to which the fixed rod belongs.
  • the index and scales will greatly assist the operator in making the required connections, especially when the fixed rods are small and very near each other, and the one used is at the distance of an arms length. It' a graduation ot the scale is brought to the index-line :c fr, each contact-pin on the rod is by the same movement carried just beyond the fixed rod of the series with which it works, having the number corresponding to the gradnation.
  • a switch-board containing several series of insulated or connecting-rods and two or more line-rods, each of which crosses all the insulated or connecting-rods, and is provided with a number of pins or other suitable contact devices, one 'for each series of insulated or connecting' rods, substantially as described.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Driving Mechanisms And Operating Circuits Of Arc-Extinguishing High-Tension Switches (AREA)

Description

(Model.) F. BLAKE.
Electric Switch Board.
ted J @@F @@B le@D Pat @@F @E @D ,r ,r f l. l llr I eea@@oeocweoowoeeebeweeoodo 9. 3. l Witnesses.' 75% N. PUUIS. Phowlmmgnmm, wnhmglan` D. C.
UNITED STATES PATENT OEEICE.
FRANCIS BLAKE, OF WESTON, MASSACHUSETTS.
ELECTRIC SWITCH-BOARD.
SPECIFICATION forming part of Letters Patent No. 248,100, dated June 21, 1881.
Application led May 9, 1881.
1 o all whom it may concern Be it known that I, FEANcIs BLAKE, of W'eston, in the State of Massachusetts, have invented a new and useful Improvement in Electric Switch-Boards, of which the following is a specification.-
The invention consists in the use of several line-rods or several series of line-rods crossiii g several series of insulated rods, iii combination with a number of contact-pins forcennecting the liii`e and insulated rodsas many contact-pins for each line-rod as there are series of insulated rods, one appropriated to each series.
In the drawings, I have shown a switchboard embodying' my invention, in which each line-rod has an independent movement over all the fixed rods, and is provided with a number of contact-pins, one for each series ot' fixed rods. for Inakiiig metallic connection with any rod thereof'.
Figure l is a plan of said switcli-board 5 Fig. 2, an end elevation of the same, and Fig. 3 a longitudinal section on one of the line-rods.
A is a table, and B a frame rigidly secured thereto, both of insulating material.
R It R are square metallic rods or bars sliding longitudinally in slots s s s in the ends of the frame, while r r r/ are small wire rods Xed in the sides of the frame, a cap-bar, a', of insulating material holding` the said movable rods in their respective slots.
G is a ground-plate common to all the mov7 able rods by means of pins p', with one ot' which normally in contact withv said groundplate each movable rod is provided.
S S S' are springs attached to the frame and workingoiie against each movable rod to maintain the said normal position of the pins p', the rods R having also each a second pin, p2, serving as a stop-pin to limit its motion in opposition to its spring S. Each movable rod is connected with an independent electric circuit through a spring-jack consisting of a yokeshaped bracket, P, a spring, t, and a metallic plate, P2, the yoke of the bracket P einbracing the movable rod, as shown, while the linewire is attached to the plate P2.
The iixed rods r r' r are divided into several series, which, in practice, are designated by letters A B (l l) E F. The movable rods R of each series are numbered 1 2 3, Sto. I
(Model.)
have shown but three rods, but in the description of the mode of operation it will appear that the three may be taken as belonging to one series, or each to a separate series, or either two to one series, while the third belongs to any other series. Each movable rod R' is provided with a number of contact-pins, c', equal to the number of series of iixed rods i", one for each series, and near each ot' these contactpiiis is stamped upon the movable rod, as shown, a letter corresponding to the letter of the series of fixed rods lying next beyond and with which it is to work. Each contact-pin has a head above its rod and a collar below, aiidis provided with a coiled spring, by which, in its normal position, it is held wholly above the plane ot' the rods 1"; but each contact-pin is of such length that when pushed in by the hand of the operator against the force of the coiled spring it may pass between two of the fixed rods r. When a contact-pin is thus pushed in between two iiXed rods the spring S will force and lock the pin against that fixed rod of the two which is more remote from the spring. The pin may be released from contact with such iixed rod by a slight movement of the movable rod against the spring S. This loekin g and releasing device forms no part of the invention claimed herein, but is a part of the subject-matter of an application for a patent tiled by me April 11, 1881.
Upon the frame is shownl a common indexline, a and each movable rod has etched upon it a scale graduated to the distances between the centers of the xed rods i", the latter being of uniform diameter and at uniform distances apart.
In practice it is found that each operator can control about fifty line or movable rods, but it is also found that the number of fixed or switch rods required at an office is a small percentage of the number of line-rods. I therefore make all the xed rods common to all the operators-that is, all the line-rods cross all the xed rods-but I divide the fixed rods into as many series as there are operators or series of line-rods, and I appropriate a series ot' xed rods to each series of line-rods, as shown in the drawings, where series A ofthe iixed rods may be considered as belonging to a series of line-rods under the control of a single operator and known as board A, fixed rods IOO in series B belonging to a series of line-rods under the control of another operator and known as board B, &c. All the fixed rods eX- tend before all the operators, and itis obvious that any operator can connect any line-rod under his control with any fixed rod before him. lt follows that but a single contact-pin in each rod is absolutely necessary, and in my said former application I have described and claimed a series of movable rods crossing a series of' ixed rods, each movable rod furnished with a single contact-pin. I make no such claim herein, the present invention having ret'- erence to and requiring the use ot several eoutact-pins in each movable rod7 one for each series ot' iixed rods, except so far as it relates to the use ot' an index and scale.
In practice each operator will make connection between any two lineerods under his own control by means ot' the series ot' fixed rods especially appropriated to him, and when a connection is to be made between one ot' his own line-rods and a line-rod under the control ot' another operator he will connect his said line-rod with one of his own fixed rods, and then cause the other operator to connect the other line-rod with the same fixed rod, each operator using his own contact-pin which is appropriated to the series to which the fixed rod belongs. The index and scales will greatly assist the operator in making the required connections, especially when the fixed rods are small and very near each other, and the one used is at the distance of an arms length. It' a graduation ot the scale is brought to the index-line :c fr, each contact-pin on the rod is by the same movement carried just beyond the fixed rod of the series with which it works, having the number corresponding to the gradnation.
l claim- 1. A switch-board containing several series of insulated or connecting-rods and two or more line-rods, each of which crosses all the insulated or connecting-rods, and is provided with a number of pins or other suitable contact devices, one 'for each series of insulated or connecting' rods, substantially as described.
2. Several series of' movable rods crossing several series otinsulated fixed rods, each movable rod having an independent movement over all the iixed rods and provided with a number of contact-pins, one for each series ot' fixed rods for making metallic connection with any rod thereof', substantially as described.
FRANCIS BLAKE.
Witnesses:
H. G. OLMsTED, W. W. SWAN.
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