US3181036A - Control device - Google Patents
Control device Download PDFInfo
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- US3181036A US3181036A US108380A US10838061A US3181036A US 3181036 A US3181036 A US 3181036A US 108380 A US108380 A US 108380A US 10838061 A US10838061 A US 10838061A US 3181036 A US3181036 A US 3181036A
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- armature
- switch
- cam
- switch blade
- latch
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- 230000009471 action Effects 0.000 description 3
- 230000003321 amplification Effects 0.000 description 2
- 238000003199 nucleic acid amplification method Methods 0.000 description 2
- 241001123248 Arma Species 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H43/00—Time 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
- H01H43/10—Time 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 a part rotating at substantially constant speed
- H01H43/12—Time 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 a part rotating at substantially constant speed stopping automatically after a single cycle of operation
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H7/00—Devices for introducing a predetermined time delay between the initiation of the switching operation and the opening or closing of the contacts
- H01H7/08—Devices for introducing a predetermined time delay between the initiation of the switching operation and the opening or closing of the contacts with timing by mechanical speed-control devices
Definitions
- Devices of this type include an electro-magnet or solenoid having a coil wired into the control circuit, and an armature which pulls in or drops out in response to the degree of current flow in the control circuit.
- One characteristic of such devices is that the current required to pull in the armature is considerably higher than necessary to hold the armature in. This is due to the air gap in the magnetic circuit when the armature is out. This characteristic places a limit on the amount of movement and the force available from an electro-magnet for a given current variationavailable in the control circuit.
- the primary object of this invention is to provide an electromagnetically operated controller in which the required differential in current flow for pulling in and holding in is substantially reduced or even completely eliminated.
- the electromagnet is arranged to provide its controlling function when it drops out, and is provided with a biasing spring so that it drops out at a predetermined current value in the control circuit.
- This dropping out action operates a switch or other control device to give the desired results in the control system.
- a motor is provided which returns the electro-magnet either partially or completely to the pulled in position.
- the maximum current required in the control circuit is substantially the hold in current.
- This use of external power for returning the armature makes it possible to reduce the size of the electro-magnet for a given application. Also, it makes it possible to work with smaller values of current in the control circuit, thus eliminating necessity for amplification, etc.
- a further object is to provide an electric timer having an electro magnetic starter which starts the timer through a time cycle in response to a variation of current in a control circuit, and in which the timer motor mechanically operates the electro-magnet during the time cycle.
- PEG. 1 is a front view of a timerembodying the invention.
- FIG. 2 is a bottom view of the timer shown in FIG- URE l. p I
- PKG. 3 is a schematic wiring diagram illustrating the application of the timer to an automatic foul indicator systern for bowling alleys.
- the timing unit consists of a base plate 1 havingears 2 and 3 which support-a switch panel 4.
- This base plate cams 7 and 8 in a clockwise direction as seen in FIGURE .1.
- the switch panel 4 supports a switch consisting of a switch also includes a flexible switch blade 12 which rides the cam 7.
- This switch blade carries a double contact 13.
- the switch also includes an extended switch blade 14 carrying a contact 15.
- This switch blade extends over the cam 7 and engages a latch 17. As shown in FIGURE 2, this latch is supported on a bearing 18 which is carried by a stud 19 secured to the base plate 1.
- the switch blade 14 is provided with a slot 20 adjacent the cam 7 so that the blade may drop over the upper surface of the cam but not touch the cam.
- an electro-magnet generally indicated as 22.
- This electro-magnet includes a coil which is supported in a U-shaped frame 24.
- This frame 24 also carries a clapper or armature 25.
- This armature is pivoted to the U-shaped bracket 24 at 26 and is provided with a spring 27 which biases the armature in a counter clockwise direction about its pivot 26.
- the U- shaped bracket 24 is carried by a bracket 28 which is secured to the base member by screws 3t).
- the bracket is slotted as shown so that the position of the electromagnet may be adjusted on the base 1.
- the latch 17 controls the switch blade 14.
- This latch 17 includes a cam follower portion 31 which rides the cam 8.
- the latch 17 also includes an extension 32 which extends adjacent the armature 25.
- this figure indicates the application of the timer to an automatic foul indicator system for bowling alleys.
- the light source 34 sends a light beam across the foul line to a photo- With the parts in the positions shown, the system is in the stand-by condition.
- the light source in such condition is not interrupted and thus the photo-electric system 35 maintains the coil 23 energized which causes the electromagnet armature 25 to be in the pulled-in position.
- the switch blade 12 has been dropped by the cam 7 which causes contacts 11 and 13 to be engaged. At this time the timer motor, foul light and buzzer are all deenergized due to the circuit being open at contacts 13-15.
- the counter clockwise motion of the latch 17 by the cam 8 during this time cycle has two functions.
- the first function is to bring the latching surface 43'of the latch back under the extension 42 of the switch blade 14.
- the other function is to return the armature ZSback to approximately its normally energized position. This movemhent is-caused by engagement of the latch extension 32 withthearmature 25.
- This application of power from the timer motor for actuating the elec tro-magnet makes it possible to control the electro-magnet by a very minute change in current.
- the electro-magnet is returned from its drop-out position to its hold-in position by the timer motor, and it is unneces- V sary for the coil 23 to developsufiicient pull for this movement.
- the coil current slightly above the drop-out value in order to hold the solenoid in the IN position.
- This feature makes it possible to employ an extremely small solenoid for controlling the timer, It also eliminates stages of amplification in the controlling circuit, thus providing an over-all cost reduction in the control system.
- a timing device a first switch blade, a cam for operating said first switch blade, a timer motor for driving said cam, a second switch blade located adjacent said first switch blade and on the side thereof opposite said cam, .ceoperatingcontacts carried by said switch blades, a latch for holding said second switch blade in raised position so that the contacts disengage when thefirst switch blade is lowered by said cam, an electro-magnet for releasing said latch to close said contacts, and means operated by the timer motor for mechanically affecting said electro-magnet.
- a timing device a first switch blade, a cam for opcrating said first switch blade, a timer motor for driving said cam, a second switch blade located adjacent said first switch blade and on the side thereof opposite said cam, cooperating contacts carried by said switch blades, a latch for holding said second switch blade in raised position so that the contacts disengage when the first switch blade is lowered by said cam, an electro-m'agnet for releasing said latch to close said contacts, means operated by the timer motor for mechanically affecting said electro-magnet, and cam means for positively returning said latch to holding position before said first switch blade is lowered by said cam.
- a timing device a first switch blade, a cam for operating said first switch blade, a timer motor for driving said cam, a second switch blade located adjacent said first switch blade and on the side thereof opposite said cam,
- a timing device a first switch blade, a cam for operating said first switch blade, a timer motor for driving said cam, a second switch blade located adjacent said first switch blade and on the side thereof opposite said cam, cooperating contacts carried by said switch blades to form a switch, a latch for holding saidsecond switch blade in raised position so that the contacts disengage when thefirst switch blade is lowered by said cam, said switch being connected to control said motor, an electro-magnet having a coil and an armature arranged to release the latch, said coil being adapted for connection in a control circuit and to cause movement of the armature to release the latch in'responseto a change of current flow in such control circuit, said releasing of the latch causing closure of the switch for a predetermined time cycle which is ended by lowering of the first'switch blade by the timer cam, and reset means for reducing the current change in the coil required for operating: the latch by the armature, said reset means including "means powered by the timer motor during the time cycle for affecting the
- a control circuit an electromagnet having a coil and an armature movable in two directions, said coil being connected in said control circuit and causing movement of said armature in response to a change in current flow in the control circuit, a motor, means including a control device actuated in response to movement of the armature caused by a current change in the coil for starting said motor, means for stopping said motor after operation through a predetermined cycle, and reset means for reducing the current changein the coil required for actuating said control device by said armature, said reset means including means operated by the motor during said predetermined cycle for moving said armature 6.
- a control circuit an electromagnet having a coil and an armature movable in two directions, said coil being connected in said control circuit and causing movement of said armature in response to a change in current flow in the control circuit
- an electric motor means including a control device actuated by movement of the armature caused bya current change in the coil for energizing saidelectric motor, means for deenergizing said electric motor after operation through a predetermined cycle, andcreset means for reducing the current change in the coil required for actuating said control device by said armature
- said reset means including means operated by the motor during said predetermined magnet having a coil and an armature movable in two directions, said coil being connected in said control circuit and causing movement of said armature in response to a change in current flow in the control circuit
- an electric motor means includinga switch actuated by movement of the armature caused by a current change in the coil for energizing the mo tor, means actuated by the motor after operation through
- means including a control device actuated byoutward movement of the armature away from the coil in response to adecrease of current fiow in thecontrol circuit for starting the motor, means for stopping the motor'after operation through a predetermined cycle, and reset means for reducing the current change in the coil required for actuating said control device by said armature, said reset means including means operated by the motor during the predetermined cycle for moving the armature toward the coil, said reset means being arranged to release the armature before the motor stops.
- an electric timing motor an electro-magnet having a coil and an armature, said coil being adapted for connection in a control circuit and to cause movement of the armature in response to a change in current flow in such control circuit
- an electric motor means including a switch closed in response to movement of the armature caused by a current change in the coil for starting the motor, means for stopping the motor after operation for a predetermined time cycle, and reset means for reducing the current change in the coil required for actuating the switch by the armature, said reset means including means powered by the motor for moving said armature.
- an electric timing motor an electro-magnet having a coil and an armature, said coil being adapted for connection in a control circuit and to cause movement of the armature in response to a change in current flow in such control circuit
- a switch for controlling said timing motor said switch being actuated conjointly by said motor and by said armature, said switch being closed to start the timing motor in response to movement of the armature caused by a current change in the coil, and being opened by the motor to stop the same at the end of a predetermined time cycle
- reset means for reducing the current change in the coil required for actuating the switch by the armature, said reset means including means powered by the timing motor during the timing cycle for moving the armature.
- an electric timing motor an electro-magnet having a coil and an armature, said coil being adapted for connection in a control circuit and to cause movement of the armature in response to a change in current how in such control circuit
- an electric motor means including a switch actuated by movement of the armature caused by a current change in the coil for energizing the motor, means actuated by the motor after operation through a predetermined cycle for operating said switch to stop the motor, and reset means for reducing the current change in the coil required for actuating said switch by said armature, said reset means including means operated by the motor during said predetermined cycle for moving said armature.
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- Reciprocating, Oscillating Or Vibrating Motors (AREA)
Description
J. L. HARRIS 7 3,181,036 CONTROL DEVICE Apr-i127, 1965 Filed May 8, 1961 FOUL LIGHT m .4 m Q5 w NJ m T Wm M m w m wmw P m 3% MMTD g in w & mwww m wmwm M1. .wmww 5 Wm \JX w j/iga Emu/2441701 of M United States Patent 3,181,936 CQNTROL DEVIQE John L. Harris, 4753 N. Newhall, Milwaukee, Wis. Filed May 8, 1961, Ser. No. 103,380 11 Qlaims. (Cl. 317-141) This invention relates in general to electromechanical controls of the type in which a switch or other control device is mechanically actuated in response to a variation in flow of current in an electric control circuit.
Devices of this type include an electro-magnet or solenoid having a coil wired into the control circuit, and an armature which pulls in or drops out in response to the degree of current flow in the control circuit. One characteristic of such devices is that the current required to pull in the armature is considerably higher than necessary to hold the armature in. This is due to the air gap in the magnetic circuit when the armature is out. This characteristic places a limit on the amount of movement and the force available from an electro-magnet for a given current variationavailable in the control circuit.
The primary object of this invention is to provide an electromagnetically operated controller in which the required differential in current flow for pulling in and holding in is substantially reduced or even completely eliminated. In the preferred form of the invention, the electromagnet is arranged to provide its controlling function when it drops out, and is provided with a biasing spring so that it drops out at a predetermined current value in the control circuit. This dropping out action operates a switch or other control device to give the desired results in the control system. Instead of requiring the electromagnet to pull itself back in, a motor is provided which returns the electro-magnet either partially or completely to the pulled in position. As a result, the maximum current required in the control circuit is substantially the hold in current. This use of external power for returning the armature makes it possible to reduce the size of the electro-magnet for a given application. Also, it makes it possible to work with smaller values of current in the control circuit, thus eliminating necessity for amplification, etc.
While it is preferred to use the drop out action of the electro-magnet for providing the controlling function, the principles of the invention are also applicable to the reverse arrangement in which the electro-rnagnet pulls in to is required for pulling the armature in the rest of the Way.
A further object is to provide an electric timer having an electro magnetic starter which starts the timer through a time cycle in response to a variation of current in a control circuit, and in which the timer motor mechanically operates the electro-magnet during the time cycle.
Other objects will appear from the following description and appended claims.
" For a full disclosure of the invention, reference is made to the accompanying drawings inwhich:
PEG. 1 is a front view of a timerembodying the invention.
FIG. 2 is a bottom view of the timer shown in FIG- URE l. p I
PKG. 3 is a schematic wiring diagram illustrating the application of the timer to an automatic foul indicator systern for bowling alleys.
, :The timing unit consists of a base plate 1 havingears 2 and 3 which support-a switch panel 4. This base plate cams 7 and 8 in a clockwise direction as seen in FIGURE .1. The switch panel 4 supports a switch consisting of a switch also includes a flexible switch blade 12 which rides the cam 7. This switch blade carries a double contact 13. The switch also includes an extended switch blade 14 carrying a contact 15. This switch blade extends over the cam 7 and engages a latch 17. As shown in FIGURE 2, this latch is supported on a bearing 18 which is carried by a stud 19 secured to the base plate 1. Also as shown in FEGURE 2 the switch blade 14 is provided with a slot 20 adjacent the cam 7 so that the blade may drop over the upper surface of the cam but not touch the cam.
Also carried by the base plate 1 is an electro-magnet generally indicated as 22. This electro-magnet includes a coil which is supported in a U-shaped frame 24. This frame 24 also carries a clapper or armature 25. This armature is pivoted to the U-shaped bracket 24 at 26 and is provided with a spring 27 which biases the armature in a counter clockwise direction about its pivot 26. The U- shaped bracket 24 is carried by a bracket 28 which is secured to the base member by screws 3t). Preferably the bracket is slotted as shown so that the position of the electromagnet may be adjusted on the base 1.
The latch 17 controls the switch blade 14. This latch 17 includes a cam follower portion 31 which rides the cam 8. The latch 17 also includes an extension 32 which extends adjacent the armature 25.
Referring to FIGURE 3, this figure indicates the application of the timer to an automatic foul indicator system for bowling alleys. In such a system, the light source 34 sends a light beam across the foul line to a photo- With the parts in the positions shown, the system is in the stand-by condition. The light source in such condition is not interrupted and thus the photo-electric system 35 maintains the coil 23 energized which causes the electromagnet armature 25 to be in the pulled-in position. Also in this stand-by condition the switch blade 12 has been dropped by the cam 7 which causes contacts 11 and 13 to be engaged. At this time the timer motor, foul light and buzzer are all deenergized due to the circuit being open at contacts 13-15.
When a bowler commits a foul, his foot will interrupt the light beam across the foul line, and this will result in the electro-magnet coil 23 being substantially de-cnergiz'ed. When this happens, the magnetic holding force on the armature-25a disappears and the spring 27 rotates this arma ture counter clockwise about its pivot 26. This movement engages the latch extension 32 and rotates the latch 1'7 clockwise about its pivot 19. This motion disengages the switch blade in which now drops down causing engagement of contacts 13 and i5.
This closure of contacts 13-15 completes the circuit to the timer motor 5 and the foul light 3'7. It also completes a circuit through contacts 13 and 11 to the buzzer 38. Thus the commission of a foul energizes the buzzer and also a foul sign which indicates to all concerned that a foul ha been committed. This also results in the timer motor 5 being energized which starts rotation of cams 7 and 8 in unison in a clockwise direction. a
In approximately two seconds the shoulder 4d of the earn '7 will enga e the switch blade 12 and raise this blade which disengages contacts 1143 and de-energizes the buzzer. The contacts 13 and 15 remain engaged and the switch blade 14 rises in unison with the switch blade 12. This causes the extension 42 of this switch blade to rise above the latchingshoulder 43 of the latch 17.
in the meantime the cam follower portion 31 of the latch 17 has been riding the cam 3. After the end 42 of the switch blade rises beyond the shoulder as of the latch, this latch is cammed in a counter clockwise direction back to the latch position shown. At the end of the cycle, the-switch blade 12 drops off the cam 8. The switch blade 14 is now held up by the latch 17 so thatcontacts 11345 are now open. This action extinguishes the foul light and de energizes the timer motor.
During the interval that the timer is running, the person who committed the foul will have departed from the foul line, causing the photo-electric system to reenergize the electro-magnetic coil 23. The counter clockwise motion of the latch 17 by the cam 8 during this time cycle has two functions. The first function is to bring the latching surface 43'of the latch back under the extension 42 of the switch blade 14. The other function is to return the armature ZSback to approximately its normally energized position. This movemhent is-caused by engagement of the latch extension 32 withthearmature 25. This application of power from the timer motor for actuating the elec tro-magnet, makes it possible to control the electro-magnet by a very minute change in current. In other words the electro-magnet is returned from its drop-out position to its hold-in position by the timer motor, and it is unneces- V sary for the coil 23 to developsufiicient pull for this movement. Thus it is necessary only to increase the coil current slightly above the drop-out value in order to hold the solenoid in the IN position.
This feature makes it possible to employ an extremely small solenoid for controlling the timer, It also eliminates stages of amplification in the controlling circuit, thus providing an over-all cost reduction in the control system.
While a preferred form of the invention has been illustrated it is obvious that many changes may be made without departing from the spirit and scope of the invention. It-is therefore desired to be limited only by the scope of the appended claims.
What is claimed is:
1. In a timing device, a first switch blade, a cam for operating said first switch blade, a timer motor for driving said cam, a second switch blade located adjacent said first switch blade and on the side thereof opposite said cam, .ceoperatingcontacts carried by said switch blades, a latch for holding said second switch blade in raised position so that the contacts disengage when thefirst switch blade is lowered by said cam, an electro-magnet for releasing said latch to close said contacts, and means operated by the timer motor for mechanically affecting said electro-magnet.
2. In a timing device, a first switch blade, a cam for opcrating said first switch blade, a timer motor for driving said cam, a second switch blade located adjacent said first switch blade and on the side thereof opposite said cam, cooperating contacts carried by said switch blades, a latch for holding said second switch blade in raised position so that the contacts disengage when the first switch blade is lowered by said cam, an electro-m'agnet for releasing said latch to close said contacts, means operated by the timer motor for mechanically affecting said electro-magnet, and cam means for positively returning said latch to holding position before said first switch blade is lowered by said cam.
3. In a timing device, a first switch blade, a cam for operating said first switch blade, a timer motor for driving said cam, a second switch blade located adjacent said first switch blade and on the side thereof opposite said cam,
cooperating contacts carried by saidswitch blades, a latch for holdingsaid second switch blade in raised position so that the contacts disengage when the first switch blade is lowered by said cam, and cam means for positively returning said latch to engaging position before said first switch blade is lowered by said cam. V.
4. In a timing device, a first switch blade, a cam for operating said first switch blade, a timer motor for driving said cam, a second switch blade located adjacent said first switch blade and on the side thereof opposite said cam, cooperating contacts carried by said switch blades to form a switch, a latch for holding saidsecond switch blade in raised position so that the contacts disengage when thefirst switch blade is lowered by said cam, said switch being connected to control said motor, an electro-magnet having a coil and an armature arranged to release the latch, said coil being adapted for connection in a control circuit and to cause movement of the armature to release the latch in'responseto a change of current flow in such control circuit, said releasing of the latch causing closure of the switch for a predetermined time cycle which is ended by lowering of the first'switch blade by the timer cam, and reset means for reducing the current change in the coil required for operating: the latch by the armature, said reset means including "means powered by the timer motor during the time cycle for affecting the armature.
5. In a control system, a control circuit, an electromagnet having a coil and an armature movable in two directions, said coil being connected in said control circuit and causing movement of said armature in response to a change in current flow in the control circuit, a motor, means including a control device actuated in response to movement of the armature caused by a current change in the coil for starting said motor, means for stopping said motor after operation through a predetermined cycle, and reset means for reducing the current changein the coil required for actuating said control device by said armature, said reset means including means operated by the motor during said predetermined cycle for moving said armature 6. In a control system, a control circuit, an electromagnet having a coil and an armature movable in two directions, said coil being connected in said control circuit and causing movement of said armature in response to a change in current flow in the control circuit, an electric motor, means including a control device actuated by movement of the armature caused bya current change in the coil for energizing saidelectric motor, means for deenergizing said electric motor after operation through a predetermined cycle, andcreset means for reducing the current change in the coil required for actuating said control device by said armature, said reset means including means operated by the motor during said predetermined magnet having a coil and an armature movable in two directions, said coil being connected in said control circuit and causing movement of said armature in response to a change in current flow in the control circuit, an electric motor, means includinga switch actuated by movement of the armature caused by a current change in the coil for energizing the mo tor, means actuated by the motor after operation through a predetermined cycle for operating said switch to stop the motor, and reset means for reducing the current change in the coil required'for actuating said switch by said armature, said reset means including means'operated by the motor during said predetermined cycle for moving said armature.
means including a control device actuated byoutward movement of the armature away from the coil in response to adecrease of current fiow in thecontrol circuit for starting the motor, means for stopping the motor'after operation through a predetermined cycle, and reset means for reducing the current change in the coil required for actuating said control device by said armature, said reset means including means operated by the motor during the predetermined cycle for moving the armature toward the coil, said reset means being arranged to release the armature before the motor stops.
9. In a timing device, an electric timing motor, an electro-magnet having a coil and an armature, said coil being adapted for connection in a control circuit and to cause movement of the armature in response to a change in current flow in such control circuit, an electric motor means including a switch closed in response to movement of the armature caused by a current change in the coil for starting the motor, means for stopping the motor after operation for a predetermined time cycle, and reset means for reducing the current change in the coil required for actuating the switch by the armature, said reset means including means powered by the motor for moving said armature.
10. In a timing device, an electric timing motor, an electro-magnet having a coil and an armature, said coil being adapted for connection in a control circuit and to cause movement of the armature in response to a change in current flow in such control circuit, a switch for controlling said timing motor, said switch being actuated conjointly by said motor and by said armature, said switch being closed to start the timing motor in response to movement of the armature caused by a current change in the coil, and being opened by the motor to stop the same at the end of a predetermined time cycle, and reset means for reducing the current change in the coil required for actuating the switch by the armature, said reset means including means powered by the timing motor during the timing cycle for moving the armature.
11. In a timing device, an electric timing motor, an electro-magnet having a coil and an armature, said coil being adapted for connection in a control circuit and to cause movement of the armature in response to a change in current how in such control circuit, an electric motor, means including a switch actuated by movement of the armature caused by a current change in the coil for energizing the motor, means actuated by the motor after operation through a predetermined cycle for operating said switch to stop the motor, and reset means for reducing the current change in the coil required for actuating said switch by said armature, said reset means including means operated by the motor during said predetermined cycle for moving said armature.
References Cited by the Examiner UNETED STATES PATENTS 569,960 10/96 Drake 317-22 X 2,068,621 1/37 Lernmon 317-22 2,101,269 12/37 Pudelko 317-141 2,349,647 5/44 Boisseau et a1. 200-97 X 2,408,185 9/46 Armstrong 200-97 2,510,690 6/50 Forsberg 200-97 2,677,030 4/54 Frey 200-97 2,690,526 9/54 Morrison 317-141 2,844,124 7/58 Andera 317-141 X 2,949,017 8/60 Swanson ZOO-38.1 X 2,957,966 10/60 Bennett 200-105 FOREIGN PATENTS 633,195 12/49 Great Britain.
SAMUEL BERNSTEIN, Primary Examiner.
Claims (1)
- 4. IN A TIMING DEVICE, A FIRST SWITCH BLADE, A CAM FOR OPERATING SAID FIRST SWITCH BLADE, A TIMER MOTOR FOR DRIVING SAID CAM, A SECOND SWITCH BLADE LOCATED ADJACENT SAID FIRST SWITCH BLADE AND ON THE SIDE THEREOF OPPOSITE SAID CAM, COOPERATING CONTACTS CARRIED BY SAID SWITCH BLADES TO FORM A SWITCH, A LATCH FOR HOLDING SAID SECOND SWITCH BLADE IN RAISED POSITION SO THAT THE CONTACTS DISENGAGE WHEN THE FIRST SWITCH BLADE IS LOWERED BY SAID CAM, SAID SWITCH BEING CONNECTED TO CONTROL SAID MOTOR, AN ELECTRO-MAGNET HAVING A COIL AND AN ARMATURE ARRANGAED TO RELEASE THE LATCH, SAID COIL BEING ADAPTED FOR CONNECTION IN A CONTROL CIRCUIT AND TO CAUSE MOVEMENT OF THE ARMATURE TO RELEASE THE LATCH IN RESPONSE TO A CHANGE OF CURRENT FLOW IN SUCH CONTROL CIRCUIT, SAID RELEASING THE LATCH CAUSING CLOSURE OF THE SWITCH FOR A PREDETERMINED TIME CYCLE WHICH IS ENDED BY LOWERING OF THE FIRST SWITCH BLADE BY THE TIMER CAM, SAID RESET MEANS FOR REDUCING THE CURRENT CHANGE IN THE COIL REQUIRED FOR OPERATING THE LATCH BY THE ARMATURE, SAID RESET MEANS INCLUDING MEANS POWERED BY THE TIMER MOTOR DURING THE TIME CYCLE FOR AFFECTING THE ARMATURE.
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US108380A US3181036A (en) | 1961-05-08 | 1961-05-08 | Control device |
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US108380A US3181036A (en) | 1961-05-08 | 1961-05-08 | Control device |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3452165A (en) * | 1967-12-04 | 1969-06-24 | American Mach & Foundry | Timer with means for sequential switch operation |
FR2371763A1 (en) * | 1976-04-07 | 1978-06-16 | Danhier Amedee | Automatic coffee making machine - has time switch and minute timer which activates sound alarm to indicate coffee is ready |
US20140021725A1 (en) * | 2012-07-13 | 2014-01-23 | Schlage Lock Company Llc | Electronic door lock assembly preload compensation system |
US20170152679A1 (en) * | 2015-12-01 | 2017-06-01 | Spectrum Brands, Inc. | Electronic lock with misalignment scoring system |
Citations (12)
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US569960A (en) * | 1896-10-20 | Automatic circuit breaker and closer | ||
US2068621A (en) * | 1933-07-15 | 1937-01-19 | Southern States Equipment Comp | Circuit breaker control |
US2101269A (en) * | 1933-09-15 | 1937-12-07 | Landis & Gyr Ag | Remote control system |
US2349647A (en) * | 1941-09-16 | 1944-05-23 | Gen Electric | Electric control system |
US2408185A (en) * | 1944-02-19 | 1946-09-24 | Westinghouse Electric Corp | Rotor type contactor |
GB633195A (en) * | 1946-09-09 | 1949-12-12 | Landis & Gyr Sa | Improvements in electric selector switches or receiving devices for remote-control installations |
US2510690A (en) * | 1948-07-19 | 1950-06-06 | Forsberg Axel Gunnar | Switch resetting mechanism |
US2677030A (en) * | 1946-10-05 | 1954-04-27 | Edgar Gretener | Electromagnetic control system |
US2690526A (en) * | 1950-10-09 | 1954-09-28 | Paragon Electric Company | Control means for defrosting refrigerators |
US2844124A (en) * | 1957-05-17 | 1958-07-22 | Edward J Andera | Livestock watering fountain |
US2949017A (en) * | 1957-06-07 | 1960-08-16 | Tyler Refrigeration Corp | Time temperature defrost control |
US2957966A (en) * | 1958-06-24 | 1960-10-25 | Robert P Bennett | Relay apparatus |
-
1961
- 1961-05-08 US US108380A patent/US3181036A/en not_active Expired - Lifetime
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US569960A (en) * | 1896-10-20 | Automatic circuit breaker and closer | ||
US2068621A (en) * | 1933-07-15 | 1937-01-19 | Southern States Equipment Comp | Circuit breaker control |
US2101269A (en) * | 1933-09-15 | 1937-12-07 | Landis & Gyr Ag | Remote control system |
US2349647A (en) * | 1941-09-16 | 1944-05-23 | Gen Electric | Electric control system |
US2408185A (en) * | 1944-02-19 | 1946-09-24 | Westinghouse Electric Corp | Rotor type contactor |
GB633195A (en) * | 1946-09-09 | 1949-12-12 | Landis & Gyr Sa | Improvements in electric selector switches or receiving devices for remote-control installations |
US2677030A (en) * | 1946-10-05 | 1954-04-27 | Edgar Gretener | Electromagnetic control system |
US2510690A (en) * | 1948-07-19 | 1950-06-06 | Forsberg Axel Gunnar | Switch resetting mechanism |
US2690526A (en) * | 1950-10-09 | 1954-09-28 | Paragon Electric Company | Control means for defrosting refrigerators |
US2844124A (en) * | 1957-05-17 | 1958-07-22 | Edward J Andera | Livestock watering fountain |
US2949017A (en) * | 1957-06-07 | 1960-08-16 | Tyler Refrigeration Corp | Time temperature defrost control |
US2957966A (en) * | 1958-06-24 | 1960-10-25 | Robert P Bennett | Relay apparatus |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3452165A (en) * | 1967-12-04 | 1969-06-24 | American Mach & Foundry | Timer with means for sequential switch operation |
FR2371763A1 (en) * | 1976-04-07 | 1978-06-16 | Danhier Amedee | Automatic coffee making machine - has time switch and minute timer which activates sound alarm to indicate coffee is ready |
US20140021725A1 (en) * | 2012-07-13 | 2014-01-23 | Schlage Lock Company Llc | Electronic door lock assembly preload compensation system |
US9580934B2 (en) * | 2012-07-13 | 2017-02-28 | Schlage Lock Company Llc | Electronic door lock assembly preload compensation system |
US11015369B2 (en) | 2012-07-13 | 2021-05-25 | Schlage Lock Company Llc | Electronic door lock assembly preload compensation system |
US20170152679A1 (en) * | 2015-12-01 | 2017-06-01 | Spectrum Brands, Inc. | Electronic lock with misalignment scoring system |
US10704293B2 (en) * | 2015-12-01 | 2020-07-07 | Spectrum Brands, Inc. | Electronic lock with misalignment scoring system |
US20210010293A1 (en) * | 2015-12-01 | 2021-01-14 | Spectrum Brands, Inc. | Electronic lock with misalignment scoring system |
US11713594B2 (en) * | 2015-12-01 | 2023-08-01 | Spectrum Brands, Inc. | Electronic lock with misalignment scoring system |
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