US636286A - Automatic electric switch. - Google Patents

Automatic electric switch. Download PDF

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Publication number
US636286A
US636286A US66351597A US1897663515A US636286A US 636286 A US636286 A US 636286A US 66351597 A US66351597 A US 66351597A US 1897663515 A US1897663515 A US 1897663515A US 636286 A US636286 A US 636286A
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Prior art keywords
switch
circuit
close
lever
branch
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US66351597A
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Edwin F Porter
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BAY STATE ELECTRIC HEAT AND LIGHT Co
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BAY STATE ELECTRIC HEAT AND LIGHT Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H43/00Time or time-programme switches providing a choice of time-intervals for executing one or more switching actions and automatically terminating their operations after the programme is completed
    • H01H43/30Time or time-programme switches providing a choice of time-intervals for executing one or more switching actions and automatically terminating their operations after the programme is completed with timing of actuation of contacts due to thermal action
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05DSYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
    • G05D23/00Control of temperature
    • G05D23/19Control of temperature characterised by the use of electric means
    • G05D23/30Automatic controllers with an auxiliary heating device affecting the sensing element, e.g. for anticipating change of temperature
    • G05D23/303Automatic controllers with an auxiliary heating device affecting the sensing element, e.g. for anticipating change of temperature using a sensing element having a resistance varying with temperature, e.g. thermistor
    • G05D23/306Automatic controllers with an auxiliary heating device affecting the sensing element, e.g. for anticipating change of temperature using a sensing element having a resistance varying with temperature, e.g. thermistor using semiconductor devices

Definitions

  • My invention relates to improvements in 10 electric switches operated automatically by a thermostatic device.
  • the object of my invention is to control automatically the electric current used in any electric apparatus by the rise and fall of temperature.
  • an electric switch included in the circuit is opened and closed by means of magnets controlled by the thermostat through whicha portion of said circuit passes.
  • the electric circuit may be opened at any desired degree of temperature and closed at any degree and is so constructed that any desired interval may be maintained between the two degrees. For instance, it may be desirable to close the circuit at 70 and open it at 70 for the purpose of operating any electric device.
  • FIG. 1 is a front View in perspective of my improved thermostatic electric switch. Fig.
  • FIG. 2 is a diagrammatic view illustrating the manner of wiring.
  • Fig. 3 is a sectional detail view hereinafter described.
  • the temperature acts upon the thermostatic coil B, which, as shown in Fig. 3, is located Within the perforated cylinder C. (Shown in Fig. 1.) One end of this coil is fastened to the shaft D at D and to the cylinder C at the other end at D and it imparts rotary motion to the shaft D as it expands or contracts by the variations of the temperature.
  • the lever E which is fixed fast to the shaft D, receives the motion of the shaft and makes a partial revolution to and fro by the action of the temperature.
  • the plate C provides a support for the cylinder C, the outer end of which forms one bearing for the shaft D, the plate forming the other bearing at D as shown in Fig. 3.
  • the switch-lever J is operated by the electromagnet J acting on the armature J and thereby forces the lever into the brushes K, supported by the bracket K, secured to the base-plate A, closing the circuit in which the above-described apparatus is placed.
  • the circuit is broken by the operation of the electroniagnet L acting on the armature L, secured to the bottom of the switch-lever J, which lever J between the magnets L and J is pivotally supported on the bracket L secured to the base-plate A, and the action of the magnet L moves the switch-lever J from contact with the brushes K.
  • This making and breaking of the circuit is controlled by the contact of the lever E as it contacts with either one of the screws F or G.
  • the direction of the current will be more concisely described hereinafter by reference to the diagrammatic view shown in Fig. 2.
  • the plugs M and M provide convenient means for interposing the above-described apparatus between a source of electricity and the apparatus using the current.
  • the indexhand F having been set at the current will remain in operation through the closed switch until the temperature acting on the thermostatic coil B and breaking the contact with the screwF shall have moved the lever Eto the contact-screw G of the hand G,which is set at when a portion of the current will pass in through the wire 5 to the magnet L and out through the wire b to the metallic segment I, and then through the hand G to the contact-screw G to the lever E and out through the wire a to the wire Z) and out at b.
  • the metallic contact-plates I and I are insulated from each other, and one is arranged in each branch circuit to convey the current to the hands I and G, respectively, which slide upon and are in contact with said plates, so that said plates I and I form, with said hands,sli ding metallic contacts for the branch circuits.
  • thermometer N is located on the base-plate for convenience.
  • this device may be used in any place where it is necessary to control an electric current either by varying the circuit, by throwing in a resistance instead of breaking it, or by breaking it entirely, as described, and it will be found useful in a great variety of apparatuses working on temperature, such as refrigerators, incubators, heating apparatuses, LOGO.
  • a main electric circuit independent branch circuits from said main circuit, an independent contact plate in each of said branch circuits and insulated from each other, a switch included in said main circuit, an electromagnet in one of said branch circuits adapted upon the closing of said circuit to be energized to close said switch and to hold itin its closed position by the continued magnetization of said magnet, an electromagnet in the other branch circuit adapted to be energized by the closing of said branch circuit after the other branch circuit has been broken to open said switch and to hold it in its open position by the continued magnetization of said magnet, a single thermostatic closer and breaker common to both said branch circuits to open and close the same and adapted upon a decrease in temperature to close the branch circuit including the magnet which closes the switch and upon an increase in temperature to break said circuit and to close the circuit including the magnet which opens the switch, contacts for establishing the branch circuits through said magnets for operating said switch, index-hands carrying said contacts and adapted to slide on said independent contact-plates and to be set
  • a main electric circuit independent branch circuits from said main circuit, an in dependent graduated scale in each of said branch circuits and insulated from each other, a switch included in said main circuit, an electromagnet in one of said branch circuits adapted upon the closing of said circuit to be energized to close said switch and to hold it in its closed position, an electromagnet in the other branch circuit adapted to be energized by the closing-of said branch circuit after the other branch circuit has been broken to open said switch and to hold it in its open position, a thermostat common to both said branch circuits to open and close the same and adapted upon a decrease in temperature to close the branch circuit including the magnet which closes the switch and upon an increase in temperature to break said circuit and to close the circuit including the magnet which opens the switch, contacts for establishing the branch circuits through said magnets for operatin g said switch, index-hands carrying said contacts and adapted to be set at predetermined temperatures whereby the switch is adapted to open the main circuit at one temperature and to close it at
  • a main electric circuit independent branch circuits from said main circuit, an independent graduated scale in each of said branch circuits and insulated from each other, a pivoted switch included in said main circuit and provided with two independent armatures, brushes with which said switch engages to close the main electric circuit, an electromagnet in one of said branch circuits adapted upon the closing of said circuit to be energized to close said switch by attracting one of said armatures and to hold said switch in its closed position, an electromagnet in the other branch circuit adapted to be energized by the closing of said branch circuit after the other branch circuit has been broken to open said switch by attracting the other armature and to hold said switch in its open position, a thermostat common to both said branch circuits to open and close the same and adapted upon a decrease in temperature to close the branch circuit including the magnet which closes the switch and upon an increase in temperature to break said circuit and to close the circuit including the magnet which opens the switch, contacts for establishing the branch circuits through said magnets for operating said switch, index-hand

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Magnetic Treatment Devices (AREA)

Description

Patented -Nov. 7, I899.
E. F. PORTER.
AUTOMATIC ELECTRIC SWITCH.
(Application filed Dec. 27, 1897.)
(N0 ModeL) UNITED STATES PATENT Orrrcn.
EDWIN F. PORTER, OF BOSTON, MASSACHUSETTS, ASSIGNOR TO THE BAY STATE ELECTRIC HEAT AND LIGHT COMPANY, OF JERSEY CITY, NE\V JERSEY.
AUTOMATIC ELECTRIC SWETCH.
SPECIFICATION forming part of Letters Patent No. 636,286, dated November '7, 1899. Application filed December 27, 1897. Serial No. 663,515. (No model.)
To aZZ whom it may concern.-
Be it known that LEDWINF. PORTER, a subject of the Queen of Great Britain, residing at Boston, in the county of Suffolk and State of Massachusetts, have invented certain new and useful Improvements in Automatic Electric Switches, of which the following is a specification.
7 My invention relates to improvements in 10 electric switches operated automatically by a thermostatic device.
The object of my invention is to control automatically the electric current used in any electric apparatus by the rise and fall of temperature.
In the apparatus hereinafter described and in which my invention is embodied an electric switch included in the circuit is opened and closed by means of magnets controlled by the thermostat through whicha portion of said circuit passes. In this device the electric circuit may be opened at any desired degree of temperature and closed at any degree and is so constructed that any desired interval may be maintained between the two degrees. For instance, it may be desirable to close the circuit at 70 and open it at 70 for the purpose of operating any electric device.
7 My invention consists of certain novel features hereinafter described, and particularly pointed out in the claims.
In the accompanying drawings, which illustrate a construction embodying my invention,
' Figure 1 is a front View in perspective of my improved thermostatic electric switch. Fig.
2 isa diagrammatic view illustrating the manner of wiring. Fig. 3 is a sectional detail view hereinafter described.
Like letters of reference refer to like parts 40 throughout the several views.
In this apparatus the temperature acts upon the thermostatic coil B, which, as shown in Fig. 3, is located Within the perforated cylinder C. (Shown in Fig. 1.) One end of this coil is fastened to the shaft D at D and to the cylinder C at the other end at D and it imparts rotary motion to the shaft D as it expands or contracts by the variations of the temperature. The lever E, which is fixed fast to the shaft D, receives the motion of the shaft and makes a partial revolution to and fro by the action of the temperature. The lever E in moving to the right comes in contact with the contact-screw F and in moving to the left comes in contact with the contactscrew G, which are respectively carried by the two index-hands F and G, which have a common pivot H and are adjustable 011 the metallic plates I and I, which are graduated for different degrees of temperature, as indi cated by the positions of the thermostat. The plate C provides a support for the cylinder C, the outer end of which forms one bearing for the shaft D, the plate forming the other bearing at D as shown in Fig. 3. The switch-lever J is operated by the electromagnet J acting on the armature J and thereby forces the lever into the brushes K, supported by the bracket K, secured to the base-plate A, closing the circuit in which the above-described apparatus is placed. The circuit is broken by the operation of the electroniagnet L acting on the armature L, secured to the bottom of the switch-lever J, which lever J between the magnets L and J is pivotally supported on the bracket L secured to the base-plate A, and the action of the magnet L moves the switch-lever J from contact with the brushes K. This making and breaking of the circuit is controlled by the contact of the lever E as it contacts with either one of the screws F or G. The direction of the current will be more concisely described hereinafter by reference to the diagrammatic view shown in Fig. 2. The plugs M and M provide convenient means for interposing the above-described apparatus between a source of electricity and the apparatus using the current.
To describe further and more concisely the operation of the apparatus above referred to, suppose the electric current enters at a, with the switch in the position shown, and passes on through the wire a to the switch-brushes K, then from the switch-lever J to the support L thence to the wire 0. to the machine to be operated, and then returning through the wire I) and out at Z). Vith the leverE in contact with the screw F a portion of the current passes through the wire a to the magnet J and out from the magnet J through the wire a to the metallic segment I, then to the index-hand F, which carries the screw F, and
thence to the lever E and through the wire a and through the wire 1) and out at b. l/Vl'tll the lever E in the above-described position it is obvious that the electromagnet J will attract the armature J placing the switch J in the position shown in Fig 1, and in this construction the current is passed from a source of electricity through the switch to the apparatus using the current. The indexhand F having been set at the current will remain in operation through the closed switch until the temperature acting on the thermostatic coil B and breaking the contact with the screwF shall have moved the lever Eto the contact-screw G of the hand G,which is set at when a portion of the current will pass in through the wire 5 to the magnet L and out through the wire b to the metallic segment I, and then through the hand G to the contact-screw G to the lever E and out through the wire a to the wire Z) and out at b. \Vith the lever E in the assumed position the magnet L will attract the armature L, opening the switch, and the current ceases to flow.
The metallic contact-plates I and I are insulated from each other, and one is arranged in each branch circuit to convey the current to the hands I and G, respectively, which slide upon and are in contact with said plates, so that said plates I and I form, with said hands,sli ding metallic contacts for the branch circuits.
As this is an apparatus working on temperature, a thermometer N is located on the base-plate for convenience.
It is obvious that this device may be used in any place where it is necessary to control an electric current either by varying the circuit, by throwing in a resistance instead of breaking it, or by breaking it entirely, as described, and it will be found useful in a great variety of apparatuses working on temperature, such as refrigerators, incubators, heating apparatuses, LOGO.
I do not limit myself to the arrangement and construction shown, as the same may be varied without departing from the spirit of my invention.
Having thus ascertained the nature of my invention and set forth a construction embodying the same, what I claim as new, and desire to secure by Letters Patent of the United States, is-
1. In an apparatus of the character specified, a main electric circuit, independent branch circuits from said main circuit, an independent contact plate in each of said branch circuits and insulated from each other, a switch included in said main circuit, an electromagnet in one of said branch circuits adapted upon the closing of said circuit to be energized to close said switch and to hold itin its closed position by the continued magnetization of said magnet, an electromagnet in the other branch circuit adapted to be energized by the closing of said branch circuit after the other branch circuit has been broken to open said switch and to hold it in its open position by the continued magnetization of said magnet, a single thermostatic closer and breaker common to both said branch circuits to open and close the same and adapted upon a decrease in temperature to close the branch circuit including the magnet which closes the switch and upon an increase in temperature to break said circuit and to close the circuit including the magnet which opens the switch, contacts for establishing the branch circuits through said magnets for operating said switch, index-hands carrying said contacts and adapted to slide on said independent contact-plates and to be set at predetermined temperatures whereby the switch is adapted to open the main circuit at one temperature and to close it at another, and a lever operated by said thermostat and adapted to alternately engage with said contacts to close the branch circuits through the magnets.
2. In an apparatus of the character specitied, a main electric circuit, independent branch circuits from said main circuit, an in dependent graduated scale in each of said branch circuits and insulated from each other, a switch included in said main circuit, an electromagnet in one of said branch circuits adapted upon the closing of said circuit to be energized to close said switch and to hold it in its closed position, an electromagnet in the other branch circuit adapted to be energized by the closing-of said branch circuit after the other branch circuit has been broken to open said switch and to hold it in its open position, a thermostat common to both said branch circuits to open and close the same and adapted upon a decrease in temperature to close the branch circuit including the magnet which closes the switch and upon an increase in temperature to break said circuit and to close the circuit including the magnet which opens the switch, contacts for establishing the branch circuits through said magnets for operatin g said switch, index-hands carrying said contacts and adapted to be set at predetermined temperatures whereby the switch is adapted to open the main circuit at one temperature and to close it at another, and a lever operated by said thermostat and adapted to alternately engage with said contacts to close the branch circuits through the magnets.
In an apparatus of the character specified, a main electric circuit, independent branch circuits from said main circuit, an independent graduated scale in each of said branch circuits and insulated from each other, a pivoted switch included in said main circuit and provided with two independent armatures, brushes with which said switch engages to close the main electric circuit, an electromagnet in one of said branch circuits adapted upon the closing of said circuit to be energized to close said switch by attracting one of said armatures and to hold said switch in its closed position, an electromagnet in the other branch circuit adapted to be energized by the closing of said branch circuit after the other branch circuit has been broken to open said switch by attracting the other armature and to hold said switch in its open position, a thermostat common to both said branch circuits to open and close the same and adapted upon a decrease in temperature to close the branch circuit including the magnet which closes the switch and upon an increase in temperature to break said circuit and to close the circuit including the magnet which opens the switch, contacts for establishing the branch circuits through said magnets for operating said switch, index-hands carrying said two subscribing witnesses, this 23d day of December, A. D. 1897.
EDWIN F. PORTER.
Witnesses:
A. L. MEssER, C. A. STEWART.
US66351597A 1897-12-27 1897-12-27 Automatic electric switch. Expired - Lifetime US636286A (en)

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