Claims
- 1. A machine for concurrently making a pair of concrete pipes with the use of upright first and second molds having side walls surrounding mold chambers comprising: a support for holding the molds in vertically oriented positions, a first core and rotatable packerhead means located below said support in vertical alignment with the chamber of the first mold; a second core and rotatable packerhead means located below said support in vertical alignment with the chamber of the second mold; table means supporting said first and second core and packerhead means for concurrent movement into the mold chambers to form a pair of concrete pipes, first conveyor means located above the first mold for discharging concrete into the mold chamber of the first mold above the first core and rotatable packerhead means, first motor means connected to the first conveyor means for operating the first conveyor means, second conveyor means located above the second mold for discharging concrete into the mold chamber of the second mold above the second core and rotatable packerhead means, second motor means connected to the second conveyor means for operating the second conveyor means, said first and second core and rotatable packerhead means each having an upright core having a top wall and a side wall spaced from the adjacent mold to provide an annular space for accomodating concrete, vibrator means mounted on the side wall for vibrating the side wall and concrete adjacent thereto, a packerhead located above the top wall operable to distribute concrete toward said adjacent mold side wall and pre-pack concrete around the packerhead, means mounting the packerhead on the core for rotation about the upright axis of the core, and drive means located within the core for rotating the packerhead, power means connected to the table means operable to concurrently move the first and second core and packerhead means into the chambers of the first and second molds to concurrently form concrete pipes within the first and second molds upon operation of the first and second conveyor means and vibrator means whereby the packerheads pre-pack the concrete around the side walls of the molds and the cores vibrate to consolidate the pre-packed concrete, said power means operable to move the first and second core and packerhead means out of the mold chambers to allow the molds and concrete pipes therein to be removed from the machine, first means for sensing the power used to turn the first packerhead and providing a first 0 to 10 volt analog signal representative of the sensed power, second means for sensing the power used to turn the second packerhead and providing a second 0 to 10 volt analog signal representative of the sensed power; control means having digital convertor means responsive to said first and second 0 to 10 volt analog signals operable to convert and scale the 0 to 10 volt analog signals to percentages for separately controlling the speeds of operation of the first and second motor means to independently operate the first and second conveyor means to control the rate at which concrete is discharged into each mold chamber to independently maintain selected amounts of concrete above the first and second packerheads whereby each packerhead has substantially constant and independent packing forces during the concurrent forming of the concrete pipes, said control means also being responsive to the first and second signals for operating the power means to move the table means and first and second core and packerhead means mounted thereon up into the mold chambers at selected speeds in response to said first and second signals to maintain said packing forces of the packerheads during the forming of the concrete pipes.
- 2. The machine of claim 1 wherein: each core and rotatable packerhead means has a motor for turning the packerhead, means for supplying power to the motor whereby the motor operates to turn the packerhead, said first and second means for sensing power supplied by the means for supplying power to provide said signals representative of the sensed power.
- 3. The machine of claim 2 wherein: the motor is a hydraulic fluid operated motor, said means for supplying power comprising a pump for supplying hydraulic fluid under pressure to said motor, and electric motor for driving the pump, said means for sensing the power comprising a power transducer for monitoring the electric power used by the electric motor used to drive the pump and providing said signal representative of the sensed power.
- 4. The machine of claim 2 wherein: the motor is a hydraulic fluid operated motor, said means for supplying power comprising a pump for supplying hydraulic fluid under pressure to said motor, and means to drive the pump, said means for sensing power comprising a pressure transducer for sensing the pressure of the hydraulic fluid supplied to the motor and providing said signal representative of the sensed power.
- 5. The machine of claim 1 wherein: said vibrator means includes a motor for operating the vibrator means at selected speeds to vary the vibrations generated by the vibrator means, and control means connected to said motor operable to increase the speed of the vibrator means as the core moves into the chamber of the mold thereby increasing the vibrations as the core moves up into the chamber of the mold.
- 6. The machine of claim 1 wherein: each packerhead has an upper roller head and a lower roller head, and said drive means turns the upper and lower roller heads in opposite circumferential directions, said first and second means for sensing the power used to turn the packerheads operable to sense the power used to turn the upper roller head and provide said signals representative of the sensed power.
- 7. The machine of claim 1 wherein: each packerhead has a generally circular plate and a plurality of circumferentially arranged rollers rotatably mounted on the plate for rotation about separate axes generally parallel to said upright axis of the core side wall, said rollers each having outer circumferential portions that move along a circular path having a diameter smaller than the diameter of said core side wall whereby said rollers prepack the concrete adjacent the mold to a thickness greater than the thickness of the concrete in the space between the core side wall and mold side wall as the rollers move along said circular path.
- 8. A machine for concurrently making a pair of concrete pipes with the use of upright first and second molds having side walls surrounding mold chambers comprising: a support for holding the molds in vertically oriented positions, a first core and rotatable packerhead means located below said support in vertical alignment with the chamber of the first mold, a second core and rotatable packerhead means located below said support in vertical alignment with the chamber of the second mold, table means supporting said first and second core and packerhead means for concurrent movement into the mold chambers to form concrete pipes, each core and packerhead means having a core with a side wall and a top wall secured to the side wall, vibrator means for vibrating said core, a packerhead located above the top wall, means rotatably mounting the packerhead on the top wall for rotation about the upright axis of the core, drive motor means for rotating said packerhead; a pair of separate means for supplying concrete to the mold chambers above the packerheads located therein, first drive means for operating one means for supplying concrete to one mold chamber, second drive means for operating the other means for supplying concrete to another mold chamber; lift means connected to the table means to selectively move the first and second core and packerhead means into and out of the mold chambers to concurrently form a pair of concrete pipes when concrete is separately supplied to the mold chambers by the pair of separate means, means for sensing the power used by the drive motor means for rotating each packerhead and providing 0 to 10 volt analog signals representative of the sensed power, and control means having digital converter means responsive to said 0 to 10 volt signals operable to convert and scale the 0 to 10 volt analog signals to percentages for separately regulating the operation of the first and second drive means to independently operate the pair of separate means for separately controlling the rate at which concrete is discharged into each mold chamber and controlling the lift speed of the lift means to move the table means at select speeds in response to said signals to maintain selected amounts of concrete above each packerhead whereby each packerhead has substantially constant and independent packing forces during the concurrent forming of a pair of concrete pipes in said molds.
- 9. The machine of claim 8 wherein: the drive means for rotating said packerhead includes a motor, means for supplying power to the motor whereby the motor operates to rotate the packerhead, said means for sensing power supplied by the means for supplying power to said motor to provide said signals representative of the sensed power.
- 10. The machine of claim 9 wherein: the motor is a hydraulic fluid operated motor, said means for supplying power comprising a pump for supplying hydraulic fluid under pressure to said motor, and an electric motor for driving the pump, said means for sensing the power comprising a power transducer for monitoring the electric power used by the electric motor used to drive the pump and providing said signals representative of the sensed power.
- 11. The machine of claim 9 wherein: the motor is a hydraulic fluid operated motor, said means for supplying power comprising a pump for supplying hydraulic fluid under pressure to said motor, and means to drive the pump, said means for sensing power comprising a pressure transducer for sensing the pressure of the hydraulic fluid supplied to the motor and providing said signals representative of the sensed power.
- 12. The machine of claim 8 wherein: said vibrator means includes a motor for operating a vibrator means at selected speeds to vary the vibrations generated by the vibrator means, and control means connected to said motor operable to increase the speed of the vibrator means as the core moves into the mold chamber thereby increasing the vibrations as the core moves up into the mold chamber.
- 13. The machine of claim 8 wherein: each packerhead has an upper roller head and a lower roller head, and said drive means turns the upper and lower roller heads in opposite circumferential directions, said first and second means for sensing the power used to turn the packerhead operable to sense the power used to turn the upper roller head and provide a signal representative of the sensed power.
- 14. The machine of claim 8 wherein: each packerhead has a generally circular plate and a plurality of circumferentially arranged rollers rotatably mounted on the plate for rotation about separate axes generally parallel to said upright axis of the core side wall, said rollers each having outer circumferential portions that move along a circular path having a diameter smaller than the diameter of said core side wall whereby said rollers prepack the concrete adjacent the mold to a thickness greater than the thickness of the concrete in the space between the core side wall and mold side wall as the rollers move along said circular path.
- 15. A machine for concurrently making at least a pair of concrete pipes with the use of upright molds having side walls surrounding mold chambers comprising: a support for holding the molds in vertically oriented positions, at least a pair of rotatable packerhead means located in vertical alignment with the chambers of the molds, means for supporting the packerhead means for concurrent movement into and out of the chambers of the molds to form concrete pipes in the molds, separate drive motor means for rotating the packerhead means, separate means for supplying concrete to the mold chambers above the packerhead means located therein, lift means connected to the means for supporting the packerhead means operable to selectively move the packerhead means concurrently into and out of the chambers of the molds to concurrently form concrete pipes when concrete is supplied to the chambers of the molds and the packerhead means are rotated and lifted relative to said molds, power transducer means for sensing the power used by each drive motor means for rotating the packerhead means connected to each said drive motor means and providing 0 to 10 volt analog signals proportional to the power of each motor means, and control means having digital converter means responsive to said 0 to 10 volt analog signals operable to convert and scale the 0 to 10 volt analog signals to percentages for separately regulating the speed of operation of each of the separate means to control the rate at which concrete is discharged into each mold chamber to independently maintain selected amounts of concrete in the mold chambers above each of the packerhead means whereby each packerhead means has substantially constant and independent packing forces during the concurrent forming of the concrete pipes, said control means is also operable to move the means for supporting the packerhead means at selected speeds in response to the 0 to 10 volt analog signals to maintain said packing forces of the packerhead means during the concurrent forming of the concrete pipes.
- 16. The machine of claim 15 wherein: the motor means is a hydraulic fluid operated motor, said means for supplying power comprising a pump for supplying hydraulic fluid under pressure to said motor, and an electric motor for driving the pump, said means for sensing the power comprising a power transducer for monitoring the electric power used by the electric motor used to drive the pump and providing said 0 to 10 volt analog signals representative of the sensed power.
- 17. The machine of claim 15 wherein: the motor is a hydraulic fluid operated motor, said means for supplying power comprising a pump for supplying hydraulic fluid under pressure to said motor and means to drive the pump, said means for sensing power comprising a pressure transducer for sensing the pressure of the hydraulic fluid supplied to the motor and providing said 0 to 10 volt analog signal representative of the sensed power.
CROSS REFERENCE TO RELATED APPLICATION
This application is a division of U.S. application Ser. No. 435,192 filed Nov. 13, 1989, now U.S. Pat. No. 5,147,196.
US Referenced Citations (20)
Divisions (1)
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Number |
Date |
Country |
Parent |
435192 |
Nov 1989 |
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