William R Dybel

40620557, Dec 6, 1977

Oct 17, 1975

5/623484

William P. Dybel - Olympia Fields IL
Frank R. Dybel - Olympia Fields IL

H01H 4732

361160

A load monitoring system for indicating and controlling loads cyclically applied to force carrying members, such as the members of production presses. The system includes a high load limit circuit adapted to energize an overload detector when the loading on the member exceeds a predetermined maximum value and a low load limit circuit adapted to activate an underload detector when the loading on the member fails to reach a predetermined minimum value during a loading cycle. The low load limit circuit includes a control rectifier that is rendered conductive for a predetermined short pulse during each loading cycle in which the minimum load is exceeded and solid state logic means responsive to the failure of the rectifier to trigger during a loading cycle for activating the underload detector. The high load limit circuit includes a control rectifier that is rendered conductive only during an overload condition and solid state logic means for activating the overload detector in response to triggering of the rectifier. Once an overload or underload occurs, the circuits are adapted to be maintained in an overload or underload detecting condition until manually reset, notwithstanding an interruption of the main power supply to the system.

41716469, Oct 23, 1979

Aug 22, 1978

5/935973

Frank R. Dybel - Olympia Fields IL
William P. Dybel - Olympia Fields IL

G01N 332

73808

A load monitoring system for monitoring loads that are cyclicaly applied to a force carrying member is disclosed. The load monitoring system comprises a transducer for sensing the loads exerted and a differential load monitoring circuit which receives the transducer signals, generates a normal load reference signal relating to previous load signals received and compares the normal load reference signal to the present load signal to determine when the present load exceeds the previous load by a predetermined amount for successive cycles of operation. The differential load monitoring circuit also includes an inhibit circuit which, during initial start-up of the cyclical load serves to inhibit the operation of the differential load monitoring circuit until such time as the normal load reference signals can be established. Furthermore, an absolute load monitoring circuit is provided which detects when the loads in the force carrying member have approached the capacity of the force carrying member or any predetermined maximum load.

46337202, Jan 6, 1987

Dec 17, 1984

6/682428

Frank R. Dybel - Olympia Fields IL
William P. Dybel - Olympia Fields IL

G01L 500
G01D 112

7386253

A press control system monitors and is responsive to the loads associated with individual die stations in a progressive die. The system detects chipped, dull, or excessively loaded portions of the progressive die and provides automatic quality monitoring of the parts produced by the press. The system provides a display of press load as a function of time scaled by the speed of the press. The press load as a function of time is automatically analyzed to determine and display the number of die stations and the peak loads associated with each die station in the progressive die. The peak loads are compared to limit values that depend in part on the past history of the press in order to monitor the condition of the progressive die and if necessary to shut down the press. The number and quality of parts produced by the press are also determined from the peak loads. Gradual wear of the die is monitored to determined when sharpening is required.

43356141, Jun 22, 1982

Jun 19, 1980

6/160944

Frank R. Dybel - Olympia Fields IL
William F. Dybel - Olympia Fields IL
Kenneth MacDonald - Deerfield IL

International Measurement & Control Company - Frankfort IL

G01B 716

73774

A strain sensing device for measuring deformation experienced by a force carrying member. The transducer includes a strain sensing element, terminal blocks, and cable terminal connections all protectively contained within a water and contaminant resistant enclosure. The transducer enclosure includes a tubular sheath within which the sensing element and terminal blocks are housed, and a pair of rubber bushings located in opposed ends of the sheath and each formed with an axial passageway. A ball is tightly held in the axial passageway of each bushing for sealing the interior of the sheath while permitting the direct transmittal of forces to the sensing element via said balls and terminal blocks.

42890225, Sep 15, 1981

Jul 20, 1979

6/059471

Frank R. Dybel - Olympia Fields IL
William P. Dybel - Olympia Fields IL

G01L 116

7386264

Applicants disclose a load monitoring system for monitoring cyclical loads on the pitman of a production press during operation. The system includes a transducer attached to the pitman of the press to produce an electrical load signal that is proportional to the forces on the pitman. The electrical load signal is connected to an overload/underload detector circuit and to a timing signal generating circuit. In response to the load signal from the transducer, the timing signal generating circuit produces timing signals, including a check pulse, in timed relationship to the cyclical stroke of the pitman. The timing signals are used to control the operation of the overload/underload detector circuit and other aspects of the press production.

40599914, Nov 29, 1977

Aug 1, 1975

5/601326

William P. Dybel - Olympia Fields IL
Frank R. Dybel - Olympia Fields IL

G01L 116

73 885R

A load monitoring system for indicating and controlling loads intermittently applied to force carrying members, such as pitmans, columns, tie rods, and toggle mechanisms of production presses. The system includes a monitor that has a main circuit board and a plurality of removable and replaceable electronic modules, each module having a base with rows of closely spaced depending pins that are insertable into connectors in the main circuit board to positively secure the module in place and electrically couple its components to the circuit board. The illustrated monitor includes a signal conditioning module which may be calibrated for the press on which the monitor is to be used, after which time it may be used in replacement or modified monitors without the necessity for their recalibration. The system further includes means for manually resetting the overload control contact means following an overload and for automatically overriding this reset after a short period so as to again render operative the load control means even though the reset means is inadvertently or intentionally maintained in its reset position. An overload counter also is provided for counting the overloads and is driven from a DC power supply with a minimum of power consumption.