US3914621A - Circuit for enabling safe actuation of a machine - Google Patents

Circuit for enabling safe actuation of a machine Download PDF

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Publication number
US3914621A
US3914621A US51249974A US3914621A US 3914621 A US3914621 A US 3914621A US 51249974 A US51249974 A US 51249974A US 3914621 A US3914621 A US 3914621A
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terminals
switches
capacitor
switch
electrically connected
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Jr Henry Andrew Passarelli
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General Electric Co
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General Electric Co
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Priority to US51249974 priority Critical patent/US3914621A/en
Priority to DE19752539055 priority patent/DE2539055A1/en
Priority to GB4101775A priority patent/GB1466367A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16PSAFETY DEVICES IN GENERAL; SAFETY DEVICES FOR PRESSES
    • F16P3/00Safety devices acting in conjunction with the control or operation of a machine; Control arrangements requiring the simultaneous use of two or more parts of the body
    • F16P3/18Control arrangements requiring the use of both hands
    • F16P3/20Control arrangements requiring the use of both hands for electric control systems

Definitions

  • Each switch has first, second and third terminals, wherein'the first and second switch terminals are normally electrically connected together while the second and third switch terminals are normally electrically disconnected.
  • the second and third terminals are momentarily electrically connected together while the first and second terminals are momentarily disconnected.
  • the capacitor is electrically coupled between the second terminals of the first and second switches, and the charging means is electrically connected between the first terminals of the first and second switches.
  • the coil is electrically connected between the third terminals of the first and second switches for providing a discharge path for the capacitor when the second and third terminals of the first switch and the second and third terminals of the second switch are momentarily electrically connected together.
  • the normally open relay contact is placed in circuit relationship with the press, whereby upon dis charge of the capacitor through the coil, the normally open relay contact closes and enables operation of the press, and upon return of both of the first and second switches to their respective normal positions, the charging means recharges the capacitor to await enabling of the next operation of the press.
  • the operator would simply use a piece of tape to continually hold down and effectively short the second operating button out of the circuit without lengthening or otherwise adversely affecting the machine operating cycle.
  • the operator could simply enable operation of the press by using one hand, while the other hand would again be free to be dangerously positioned within the operating area of the press.
  • a circuit requiring the simultaneous use of both hands of an operator for enabling the safe and repetitive operation of a press or other similar type of machine.
  • the circuit is comprised of first and second single pole double throw momentary contact switches, a capacitor, means for charging the capacitor, and a relay having a coil and a normally open contact.
  • Each switch has first, second and third terminals, wherein the first and second switch terminals are normally electrically connected together while the second and third switch terminals are normally electrically disconnected.
  • the switch is actuated by application of hand pressure thereto, the second and third terminals are momentarily electrically connected together while the first and second terminals are momentarily disconnected.
  • the capacitor is electrically coupled between the second terminals of the first and second switches, and the charging means is electrically connected between the first terminals of the first and second switches.
  • the coil is electrically connected between the third terminals of the first and second switches for providing a discharge path for the capacitor when the second and third terminals of the first switch and the second and third terminals of the second switch are momentarily electrically connected together.
  • the normally open relay contact is placed in circuit relationship with the press, whereby upon discharge of the capacitor through the coil, the normally open contact closes and enables operation of the press, and upon return of both of the first and second switches to their respective normal positions, the charging means recharges the capacitor to await enabling of the next operation of the press.
  • the charging means is comprised of a step down transformer having a primary and a secondary winding, a resistor and a polarizing rectifier. Theresistor and rectifier are in series circuit relationship with the secondary winding,,-and the primary winding is in series circuit relationship with a source of AC power.
  • the circuit is comprised of first and second single pole double throw momentary contact switches 10 and 12, a capacitor 14, a relay 16 having a coil 18 and a normally open contact 20, and means for charging the capacitor.
  • the charging means is comprised of avoltage step down transformer 22 having primary and secondary windings 24 and 26, a polarizing rectifier 28 and a current limiting resistor 30.
  • the transformer serves to reduce the voltage magnitude of the AC power source, so as to prevent damage to the capacitor and relay coil, and provide a safe low voltage level across switches 10 and 12.
  • Switches 10 and 12 are hand operated and can be the same type as Model CR1 15HO1404 manufactured and sold by the General Purpose Control Products Department of the General Electric Company.
  • Switch 10 can have three screw-type terminals 32, 34 and 36, and a single electrically conductive pole 38 which is always electrically connected to terminal 36.
  • switch 12 can have three screw-type terminals 40, 42 and 44, and a single electrically conductive pole 46 which is always electrically connected to terminal 44.
  • Pole 38 is normally in electrical contact with terminal 32 and thereby forms a normally closed contact between terminals 32 and 36 and a normally open contact between terminals 34 and 36.
  • pole 38 Upon transmittal of hand pressure to pole 38, pole 38 comes into momentary electrical contact with terminal 34 and is momentarily disconnected from terminal 32, thereby opening the contact formed between terminals 32 and 36 and closing the contact formed between the terminals 34 and 36.
  • pole 46 of switch 12 is normally in electrical contact with terminal 40, and forms a normally closed contact between terminals 40 and 44 and a normally open contact between terminals 42 and 44.
  • pole 46 upon transmittal of hand pressure to pole 46, pole 46 comes into momentary electrical contact with terminal 44, and is momentarily electrically disconnected from terminal 40 so as to close the contact formed between terminals 42 and 44 and open the contact formed between terminals 40 and 44.
  • Primary winding 24 of transformer 22 is electrically connected across a source of AC power via a protective line fuse 48 and a main AC power switch 50.
  • a pilot light 52 is electrically connected across primarywinding 24 to provide an indication of whether or not power is applied to the circuit.
  • One terminal of secondary winding 26 is electrically connectedto terminal 40 of switch 12, while the other terminal of the secondary winding is electrically connected to the cathode of polari zing rectifier 28.
  • the anode of rectifier 28 is electrically coupled to contact terminal 32 of switch via resistor 30.
  • Capacitor 14 is'electrically connected between contact "terminals '36 and 44 of respective switches 10 and 12, while coil 18 of relay 16 is electrically connected between terminals 34' and 42 of respective switches 10 and 12.
  • Normally open contact is electrically connected across a source of AC power via a solenoid coil 54 which controls the enabling ofthe operation of a press or other similar machine.
  • capacitor 14 is discharged prior to the closure of main power switch 50.
  • pilot light 52 lights up and a reduced voltage with respect to the AC power source is applied across secondary winding 26 of transformer 22. Since current only flows through' rectifier 28 in one direction, capacitor 14 charges to the voltage appearing across the secondary winding. Due to the particular polarity of rectifier 28 within this circuit, that plate of capacitor 14, which is electrically connected to terminal 44 of switch 12, charges to a positive potential with respect to its other plate, as current flows through contact 36 to contact 32 via pole 38 of switch 10, then through'resistor 30, rectifier 28, secondary winding 26, and from terminal 40 to terminal 44 via pole 46 of switch 12.
  • capacitor 14 could not become charged, and solenoid 54 of the press could never be actuated.
  • capacitor 12 were first allowed to charge, and then the pole of switch 12 were taped down to close the contact formed between terminals 42 and 44 thereof, one hand could be used to de- I pressthe pole of switch 10 andcause actuation of sole-.
  • first and second single pole double throw momentary contact switches each switch having first, second and third terminals, said first and second switch terminals being normally electrically connected together when said second and third switch terminals are normally electrically disconnected, and said second and third switch terminals are momentarily electrically connected together during hand pressure actuation of each said switch when said first ands'econd switch terminals are momentarily disconnected;
  • a-r'elay having a coil and a normally open'relay 'contact, said coil being electrically connected between said third terminals-of said first and second switches for providing a discharge path for said capacitor only when said second and third terminals of said respective first and second switches are momentarily electricallyco nnected together, said normally open relay cont-act being in circuit relation: ship with the machine, whereby upon discharge of said capacitor through said coil,'said normally open" relay contact closes and enables operation of the machine, and upon return of both of said first and second switches to their respective normal unactuated positions, said charging means recharges said capacitor to await enabling of the next operation of the machine.

Abstract

A circuit requiring the simultaneous use of both hands of an operator for enabling the safe and repetitive operation of a press or other similar type of machine. The circuit is comprised of first and second single pole double throw momentary contact switches, a capacitor, means for charging the capacitor, and a relay having a coil and a normally open contact. Each switch has first, second and third terminals, wherein the first and second switch terminals are normally electrically connected together while the second and third switch terminals are normally electrically disconnected. When each of the switches is actuated by application of hand pressure thereto, the second and third terminals are momentarily electrically connected together while the first and second terminals are momentarily disconnected. The capacitor is electrically coupled between the second terminals of the first and second switches, and the charging means is electrically connected between the first terminals of the first and second switches. The coil is electrically connected between the third terminals of the first and second switches for providing a discharge path for the capacitor when the second and third terminals of the first switch and the second and third terminals of the second switch are momentarily electrically connected together. The normally open relay contact is placed in circuit relationship with the press, whereby upon discharge of the capacitor through the coil, the normally open relay contact closes and enables operation of the press, and upon return of both of the first and second switches to their respective normal positions, the charging means recharges the capacitor to await enabling of the next operation of the press.

Description

United States Patent [1 1 Passarelli, Jr.
[4 1 Oct. 21, 1975 CIRCUIT FOR ENABLING SAFE ACTUATION OF A MACHINE [75] Inventor: Henry Andrew Passarelli, Jr.,
Coventry, R.l.
[22] Filed: Oct. 7, 1974 [21] Appl. No.: 512,499
[52] US. Cl. 307/113; 317/135 R [51] Int. Cl. I-IOIII 19/00 [58] Field of Search 307/113, 115; 317/135 R, 317/135 A, 151, 139
[56] References Cited UNITED STATES PATENTS 2,962,633 11/1960 Raymond 307/113 3,748,541 7/1973 Ginsberg 307/113 Primary ExaminerRobert K. Schaefer Assistant ExaminerM. Ginsburg Attorney, Agent, or FirmS. A. Young; R. A. Cahill; W. C. Bernkopf [5 7 ABSTRACT A circuit requiring the simultaneous use of both hands of an operator for enabling the safe and repetitive operation of a press or other similar type of machine. The circuit is comprised of first and second single pole double throw momentary contact switches, a capacitor, means for charging the capacitor, and a relay having a coil and a normally open contact. Each switch has first, second and third terminals, wherein'the first and second switch terminals are normally electrically connected together while the second and third switch terminals are normally electrically disconnected. When each of the switches is actuated by application of hand pressure thereto, the second and third terminals are momentarily electrically connected together while the first and second terminals are momentarily disconnected. The capacitor is electrically coupled between the second terminals of the first and second switches, and the charging means is electrically connected between the first terminals of the first and second switches. The coil is electrically connected between the third terminals of the first and second switches for providing a discharge path for the capacitor when the second and third terminals of the first switch and the second and third terminals of the second switch are momentarily electrically connected together. The normally open relay contact is placed in circuit relationship with the press, whereby upon dis charge of the capacitor through the coil, the normally open relay contact closes and enables operation of the press, and upon return of both of the first and second switches to their respective normal positions, the charging means recharges the capacitor to await enabling of the next operation of the press.
2 Claims, 1 Drawing Figure A. C. SUPPLY U.S. Patent Oct. 21, 1975 A.C. SUPPLY RC. SUPPLY CIRCUIT FOR ENABLING SAFE ACTUATION OF A MACHINE BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to a control circuit for enabling safe and repetitive operation of a machine, and, more particularly, to a circuit requiring the use of both hands of an operator to enable the safe operation of a press or the like.
2. Description of the Prior Art In the past, when operating large machines-such as presses, an operator would normally depress a button with one hand and enable a machine operation to proceed. However, since the operators other hand was not needed to start the operation of the press, at times this hand would be dangerously positioned by the operator in the path of the machine operation, thus resulting in serious injury to or loss of the hand. In order to prevent such injury or loss, it became required that machine operation could not commence until the operator simultaneously depressed two start or operating buttons so as to prevent positioning of either of his hands in the operating area of the machine. However, this second operating button would typically be electrically connected directly to and electrically in series with the first operating button. Under these circumstances, the operator would simply use a piece of tape to continually hold down and effectively short the second operating button out of the circuit without lengthening or otherwise adversely affecting the machine operating cycle. Thus, the operator could simply enable operation of the press by using one hand, while the other hand would again be free to be dangerously positioned within the operating area of the press.
OBJECT OF THE INVENTION It is therefore an object of this invention to provide a circuit which requires the simultaneous use of both hands of the operator to enable safe actuation of a press, thereby insuring that neither hand of the operator can be positioned within the operating area of the press.
Other objects of the invention will be pointed out hereinafter.
SUMMARY OF THE INVENTION According to a broad aspect of the invention, there is provided a circuit requiring the simultaneous use of both hands of an operator for enabling the safe and repetitive operation of a press or other similar type of machine. The circuit is comprised of first and second single pole double throw momentary contact switches, a capacitor, means for charging the capacitor, and a relay having a coil and a normally open contact. Each switch has first, second and third terminals, wherein the first and second switch terminals are normally electrically connected together while the second and third switch terminals are normally electrically disconnected. When the switch is actuated by application of hand pressure thereto, the second and third terminals are momentarily electrically connected together while the first and second terminals are momentarily disconnected. The capacitor is electrically coupled between the second terminals of the first and second switches, and the charging means is electrically connected between the first terminals of the first and second switches. The coil is electrically connected between the third terminals of the first and second switches for providing a discharge path for the capacitor when the second and third terminals of the first switch and the second and third terminals of the second switch are momentarily electrically connected together. The normally open relay contact is placed in circuit relationship with the press, whereby upon discharge of the capacitor through the coil, the normally open contact closes and enables operation of the press, and upon return of both of the first and second switches to their respective normal positions, the charging means recharges the capacitor to await enabling of the next operation of the press.
The charging means is comprised of a step down transformer having a primary and a secondary winding, a resistor and a polarizing rectifier. Theresistor and rectifier are in series circuit relationship with the secondary winding,,-and the primary winding is in series circuit relationship with a source of AC power.
BRIEF DESCRIPTION OF THE DRAWING The drawing is an electrical schematic diagram of the circuit in accordance with the invention.
DESCRIPTION OF THE PREFERRED EMBODIMENT The invention will now be explained with reference to the drawing.
Referring to the drawing, the circuit is comprised of first and second single pole double throw momentary contact switches 10 and 12, a capacitor 14, a relay 16 having a coil 18 and a normally open contact 20, and means for charging the capacitor. The charging means is comprised of avoltage step down transformer 22 having primary and secondary windings 24 and 26, a polarizing rectifier 28 and a current limiting resistor 30. The transformer serves to reduce the voltage magnitude of the AC power source, so as to prevent damage to the capacitor and relay coil, and provide a safe low voltage level across switches 10 and 12.
Switches 10 and 12 are hand operated and can be the same type as Model CR1 15HO1404 manufactured and sold by the General Purpose Control Products Department of the General Electric Company. Switch 10 can have three screw-type terminals 32, 34 and 36, and a single electrically conductive pole 38 which is always electrically connected to terminal 36. Similarly, switch 12 can have three screw- type terminals 40, 42 and 44, and a single electrically conductive pole 46 which is always electrically connected to terminal 44. Pole 38 is normally in electrical contact with terminal 32 and thereby forms a normally closed contact between terminals 32 and 36 and a normally open contact between terminals 34 and 36. Upon transmittal of hand pressure to pole 38, pole 38 comes into momentary electrical contact with terminal 34 and is momentarily disconnected from terminal 32, thereby opening the contact formed between terminals 32 and 36 and closing the contact formed between the terminals 34 and 36. Similarly, pole 46 of switch 12 is normally in electrical contact with terminal 40, and forms a normally closed contact between terminals 40 and 44 and a normally open contact between terminals 42 and 44. Again, upon transmittal of hand pressure to pole 46, pole 46 comes into momentary electrical contact with terminal 44, and is momentarily electrically disconnected from terminal 40 so as to close the contact formed between terminals 42 and 44 and open the contact formed between terminals 40 and 44.
Primary winding 24 of transformer 22 is electrically connected across a source of AC power via a protective line fuse 48 and a main AC power switch 50. A pilot light 52 is electrically connected across primarywinding 24 to provide an indication of whether or not power is applied to the circuit. One terminal of secondary winding 26 is electrically connectedto terminal 40 of switch 12, while the other terminal of the secondary winding is electrically connected to the cathode of polari zing rectifier 28. The anode of rectifier 28 is electrically coupled to contact terminal 32 of switch via resistor 30. Capacitor 14 is'electrically connected between contact "terminals '36 and 44 of respective switches 10 and 12, while coil 18 of relay 16 is electrically connected between terminals 34' and 42 of respective switches 10 and 12. Normally open contact is electrically connected across a source of AC power via a solenoid coil 54 which controls the enabling ofthe operation of a press or other similar machine.
The operation of this circuit will now be ex'plained. It will be assumed that initially capacitor 14 is discharged prior to the closure of main power switch 50. Upon closure of main power switch 50, pilot light 52 lights up and a reduced voltage with respect to the AC power source is applied across secondary winding 26 of transformer 22. Since current only flows through' rectifier 28 in one direction, capacitor 14 charges to the voltage appearing across the secondary winding. Due to the particular polarity of rectifier 28 within this circuit, that plate of capacitor 14, which is electrically connected to terminal 44 of switch 12, charges to a positive potential with respect to its other plate, as current flows through contact 36 to contact 32 via pole 38 of switch 10, then through'resistor 30, rectifier 28, secondary winding 26, and from terminal 40 to terminal 44 via pole 46 of switch 12. Now, when it is desired to enable operation of the machine, the operator, using both hands, transmits pressure to respective poles 38 and 46 of respective switches 10 and 12 to simultaneously close the respective contacts formed between terminals 34 and 36 of switch 10 and between terminals 42 and 44 of switch 12. Upon closure of these contacts, capacitor 14 discharges through coil 18 of relay 16. This, in turn, causes normally open contact 20 to close,
and AC power is applied directly across solenoid 54 of the press. Thus, operation of the press is enabled, while both hands of the operator are forced to remain outside the' line of operation of the press. Now, when the operator releases both of his hands from switches 10 and 12,
the respective contacts formed betweenterminals 32' nals 42 and 44 is always closed, then capacitor 14 could not become charged, and solenoid 54 of the press could never be actuated. However, if capacitor 12 were first allowed to charge, and then the pole of switch 12 were taped down to close the contact formed between terminals 42 and 44 thereof, one hand could be used to de- I pressthe pole of switch 10 andcause actuation of sole-.
noid 54. However, the tape would have to be removed from switch 12 so that the contact formed between terminals 40 and 44 of switch 12 can close to allow recharging of the capacitor. Thus, in order to perform a series of repetitive press operations in this manner, the pole of switch 12 would have to be held down" by tape for part of the operating cycle, and then the tape would have to be removed for the remaining part'of the operating cycle. Such an irregular procedure would so greatly increase .the operating. time of the machine cycle as to be totally unacceptable, especially when the machine is to be operated continuously through repetitive cycles.
It is thus clear that the above described circuit would effectively require the use of both hands to enable operation of a press or other similar machine, thereby preventing either hand of the operator from beingpositionedwithin the line of operation of the press. This, in turn, should result in a significant decrease inserious permanentinjuries to the hands of operators of various types of presses and other similar machines.
Although the invention has been described with reference to a specific embodiment thereof, numerous modifications are possible without departing from the invention, and ,it is desirable to cover all modifications falling within the spirit and scope of the invention.
What Iclaim as new and desire to secure my Letters Patent of the United States is:
1. A circuit for enabling safe operation ofa machine,
comprising: Y
a. first and second single pole double throw momentary contact switches, each switch having first, second and third terminals, said first and second switch terminals being normally electrically connected together when said second and third switch terminals are normally electrically disconnected, and said second and third switch terminals are momentarily electrically connected together during hand pressure actuation of each said switch when said first ands'econd switch terminals are momentarily disconnected;
b. a capacitor always electrically coupledbetween said second terminals of said first and second' switches;
c. means electrically connected between said first terminals of said first and second switches for charging said capacitor when said first and second terminals 'of said respective first and second switches are electrically connected together; and
d. a-r'elay having a coil and a normally open'relay 'contact, said coil being electrically connected between said third terminals-of said first and second switches for providing a discharge path for said capacitor only when said second and third terminals of said respective first and second switches are momentarily electricallyco nnected together, said normally open relay cont-act being in circuit relation: ship with the machine, whereby upon discharge of said capacitor through said coil,'said normally open" relay contact closes and enables operation of the machine, and upon return of both of said first and second switches to their respective normal unactuated positions, said charging means recharges said capacitor to await enabling of the next operation of the machine. I
c. a rectifier, said resistor and rectifier being in series circuit relationship with said secondary winding, and said primary winding being in series circuit relationship with a source of AC power.

Claims (2)

1. A circuit for enabling safe operation of a machine, comprising: a. first and second single pole double throw momentary contact switches, each switch having first, second and third terminals, said first and second switch terminals being normally electrically connected together when said second and third switch terminals are normally electrically disconnected, and said second and third switch terminals are momentarily electrically connected together during hand pressure actuation of each said switch when said first and second switch terminals are momentarily disconnected; b. a capacitor always electrically coupled between said second terminals of said first and second switches; c. means electrically connected between said first terminals of said first and second switches for charging said capacitor when said first and second terminals of said respective first and second switches are electrically connected together; and d. a relay having a coil and a normally open relay contact, said coil being electrically connected between said third terminals of said first and second switches for providing a discharge path for said capacitor only when said second and third terminals of said respective first and second switches are momentarily electrically connected together, said normally open relay contact being in circuit relationship with the machine, whereby upon discharge of said capacitor through said coil, said normally open relay contact closes and enables operation of the machine, and upon return of both of said first and second switches to their respective normal unactuated positions, said charging means recharges said capacitor to await enabling of the next operation of the machine.
2. A circuit according to claim 1, wherein said charging means is comprised of: a. a step down transformer having a primary and a secondary winding; b. a resistor; and c. a rectifier, said resistor and rectifier being in series circuit relationship with said secondary winding, and said primary winding being in series circuit relationship with a source of AC power.
US51249974 1974-10-07 1974-10-07 Circuit for enabling safe actuation of a machine Expired - Lifetime US3914621A (en)

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US51249974 US3914621A (en) 1974-10-07 1974-10-07 Circuit for enabling safe actuation of a machine
DE19752539055 DE2539055A1 (en) 1974-10-07 1975-09-03 CIRCUIT ARRANGEMENT FOR SAFE OPERATION OF A MACHINE
GB4101775A GB1466367A (en) 1974-10-07 1975-10-07 Circuit for enabling safe actuation of a machine

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4918560A (en) * 1988-07-29 1990-04-17 Harvard Ind Inc Proximity operated machine control
US4939358A (en) * 1986-10-08 1990-07-03 Jeffries, Inc. Switch apparatus including a pair of beam-type switches
US5077467A (en) * 1990-09-12 1991-12-31 Triad Controls, Inc. Photoelectric switch and relay system with disabling fail-safe monitoring circuitry
US5367158A (en) * 1991-10-25 1994-11-22 Break-A-Beam, Inc. Photoelectric switch for use with a machine control circuit
US5425403A (en) * 1993-09-24 1995-06-20 Herrmann; Otto Device for filling bags with a powder-like or granular flowable material, especially sand
US5771146A (en) * 1995-10-04 1998-06-23 Schneider Electric Sa Safety circuit
US6285021B1 (en) 1999-07-27 2001-09-04 Banner Engineering Corp. Self checking safety switch
USRE37777E1 (en) 1986-10-08 2002-07-02 Jeffrey G. Herman Switch apparatus requiring the hand of the operator to activate the switch by breaking a light beam

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DK0565745T3 (en) * 1992-04-13 1996-11-11 Schneider Electric Gmbh Monitoring of a signal change, especially in self-controlling operating systems

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2962633A (en) * 1955-06-24 1960-11-29 Dictaphone Corp Dual push button control system
US3748541A (en) * 1972-07-26 1973-07-24 L Ginsberg Electrical safety control circuit for punch presses and the like

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2962633A (en) * 1955-06-24 1960-11-29 Dictaphone Corp Dual push button control system
US3748541A (en) * 1972-07-26 1973-07-24 L Ginsberg Electrical safety control circuit for punch presses and the like

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4939358A (en) * 1986-10-08 1990-07-03 Jeffries, Inc. Switch apparatus including a pair of beam-type switches
USRE37777E1 (en) 1986-10-08 2002-07-02 Jeffrey G. Herman Switch apparatus requiring the hand of the operator to activate the switch by breaking a light beam
US4918560A (en) * 1988-07-29 1990-04-17 Harvard Ind Inc Proximity operated machine control
US5077467A (en) * 1990-09-12 1991-12-31 Triad Controls, Inc. Photoelectric switch and relay system with disabling fail-safe monitoring circuitry
US5367158A (en) * 1991-10-25 1994-11-22 Break-A-Beam, Inc. Photoelectric switch for use with a machine control circuit
US5665961A (en) * 1991-10-25 1997-09-09 Break-A-Beam, Inc. Photoelectric switch for use with a machine control circuit
US5425403A (en) * 1993-09-24 1995-06-20 Herrmann; Otto Device for filling bags with a powder-like or granular flowable material, especially sand
US5771146A (en) * 1995-10-04 1998-06-23 Schneider Electric Sa Safety circuit
US6285021B1 (en) 1999-07-27 2001-09-04 Banner Engineering Corp. Self checking safety switch

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GB1466367A (en) 1977-03-09
DE2539055A1 (en) 1976-04-15

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