Apparatus and method for improving the control of a concrete screed head assembly
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E01C-023/07
E01C-023/00
출원번호
US-0804325
(2004-03-19)
발명자
/ 주소
Quenzi,Philip J
Kieranen,Carl B
Anderson,Frank E
Torvinen,Jeffrey W
Pietila,Mark A
출원인 / 주소
Somero Enterprises, Inc.
대리인 / 주소
Van Dyke, Gardner, Linn &
인용정보
피인용 횟수 :
23인용 특허 :
26
초록▼
A soft landing control system for a screeding device is operable to automatically lower a vibrating member of a screed head assembly into engagement with a concrete surface at a time and place where the vibrating member is not positioned over an overlap area of already screeded concrete. The vibrati
A soft landing control system for a screeding device is operable to automatically lower a vibrating member of a screed head assembly into engagement with a concrete surface at a time and place where the vibrating member is not positioned over an overlap area of already screeded concrete. The vibrating member is automatically lowered onto newly placed concrete at or near the junction or cold-joint between the already screeded concrete and the area of newly placed concrete, so as to avoid depressions in the already placed concrete. Optionally, the soft landing control system may include a timing device and may lower the vibrating member after a period of time following an activating event. Optionally, the control system may detect when the vibrating device is positioned at or near the newly placed concrete and may lower the vibrating member in response to such detection.
대표청구항▼
The invention claimed is: 1. A soft landing control system for a screeding machine for smoothing and screeding a concrete surface, said screeding machine including a screed head assembly having a grade setting device and a vibrating member, said screeding machine including a screed head support for
The invention claimed is: 1. A soft landing control system for a screeding machine for smoothing and screeding a concrete surface, said screeding machine including a screed head assembly having a grade setting device and a vibrating member, said screeding machine including a screed head support for supporting said screed head assembly, said soft landing control system comprising: a control operable to adjust the level of said vibrating member relative to said grade setting device to engage the vibrating member with the concrete surface at an onset of a screeding pass, said control being operable to automatically lower said vibrating member toward and into engagement with the concrete surface after said grade setting device is lowered to the desired grade level; and an activating device, said control being operable to position said vibrating member at an initial location that is generally at or near the onset of the screeding pass and above and offset from the concrete surface and the desired grade level, said control being operable to automatically lower said vibrating member from said initial location and toward and into engagement with the concrete surface in response to a signal generated by said activating device, said activating device comprising at least one of a timing device, a concrete sensing device, a sensing device for sensing a concrete surface characteristic, a sensing device for sensing a degree of cure of the concrete, a sensing device for sensing a degree of processing of the concrete, and a device for determining a height of said screed head assembly above the concrete or the desired grade level. 2. The soft landing control system of claim 1, wherein said control is operable to adjust the level or said vibrating member relative to said grade setting device via pivotal movement of said screed head assembly about a pivot axis extending generally along said screed head assembly and generally parallel to the desired grade of the concrete surface. 3. The soft landing control system of claim 2, wherein said control is operable to pivot a level sensing device relative to a frame or said screed head assembly, wherein a tilt control of said screeding machine is operable to pivot said screed head assembly in response to pivotal movement of said level sensing device to lower said vibrating member into engagement with the concrete surface. 4. The soft landing control system of claim 2, wherein said control is operable to pivot said screed head assembly about said pivot axis via extension or retraction of at least one actuator of said screed head assembly. 5. The soft landing control system of claim 1, wherein said control is operable to adjust the level of said vibrating member relative to said grade setting device via generally vertical movement of said vibrating member relative to a frame or said screed head assembly. 6. The soft landing control system of claim 1, wherein said activating device comprises a device for determining a height of said screed head assembly, said control automatically lowering said vibrating member toward and into engagement with the concrete surface in response to a determination that said screed head assembly is at a predetermined height above the desired grade level. 7. The soft landing control system of claim 6, wherein said activating device comprises a timing device, said control being operable to lower said vibrating member toward and into engagement with the concrete surface in response to a signal from said timing device indicative of a lapsing of a period of time following the determination that said sewed head assembly is at the predetermined height. 8. The soft landing control system of claim 1, wherein said activating device comprises a timing device, said control being operable to lower said vibrating member toward and into engagement with the concrete surface after a period of time following one of (a) actuation of a user input and (b) a signal from one of a concrete sensing device, a sensing device for sensing a concrete surface characteristic, a sensing device for sensing a degree of cure of the concrete, a sensing device for sensing a degree of processing of the concrete, and a device for determining a height of said grade setting device above the concrete. 9. The soft landing control system of claim 1, wherein said control is responsive to a user input, said activating device comprising a timing device, said control being operable to lower said vibrating member toward and into engagement with the concrete surface in response to a signal from said timing device that is indicative of a lapsing of a period of time following actuation of the user input. 10. The soft landing control system of claim 1, wherein said activating device comprises a sensing device for sensing uncured concrete at or near said vibrating member. 11. A soft landing control system for a screeding machine for smoothing and screeding a concrete surface, said screeding machine including a screed head assembly having a grade setting device and a vibrating member, said screeding machine including a screed head support for supporting said screed head assembly, said soft landing control system comprising: a control operable to adjust the level of said vibrating member relative to said grade setting device, said control being operable to automatically lower said vibrating member toward and into engagement with the concrete surface after said grade setting device is lowered to the desired grade level, said control being operable to automatically lower said vibrating member into engagement with the concrete surface in response to an activating event, said activating event comprising a detection of uncured concrete at or near said vibrating member, wherein said control receives an input from a vibration sensing device operable to sense the vibration at one of the concrete surface and said vibrating member, said control lowering said vibrating member in response to said control determining that the sensed vibration is indicative of vibration at uncured and not previously screeded concrete. 12. A soft landing control system for a screeding machine for smoothing and screeding a concrete surface, said screeding machine including a screed head assembly having a grade setting device and a vibrating member said screeding machine including a screed head support for supporting said screed head assembly, said soft landing control system comprising: a control operable to adjust the level of said vibrating member relative to said grade setting device, said control being operable to automatically lower said vibrating member toward and into engagement with the concrete surface after said grade setting device is lowered to the desired grade level, said control being operable to automatically lower said vibrating member into engagement with the concrete surface in response to an activating event, said activating event comprising a detection of uncured concrete at or near said vibrating member, wherein said control receives an input from a vertically movable sensing device, wherein movement of said vertically movable sensing device is affected by the type of concrete or degree of cure of the concrete at which said sensing device is positioned, said control lowering said vibrating member in response to said input being indicative of said sensing device engaging uncured and not previously screeded concrete. 13. A soft landing control system for a screeding machine for smoothing and screeding a concrete surface, said screeding machine including a screed head assembly having a grade setting device and a vibrating member, said screeding machine including a screed head support for supporting said screed head assembly, said soft landing control system comprising: a control operable to adjust the level of said vibrating member relative to said grade setting device, said control being operable to automatically lower said vibrating member toward and into engagement with the concrete surface after said grade setting device is lowered to the desired grade level, said control being operable to automatically lower said vibrating member into engagement with the concrete surface in response to an activating event, said activating event comprising a detection of uncured concrete at or near said vibrating member, wherein said control receives an input from a switch positioned in front of said grade setting device, wherein said switch communicates an input signal to said control when said switch contacts excess uncured concrete in front of said grade setting device. 14. The soft landing control system of claim 13, wherein said control includes a timing device and is operable to lower said vibrating member into engagement with the concrete surface after a period of dine following said activating event. 15. A soft landing control system for a screeding machine for smoothing and screeding a concrete surface, said screeding machine including a screed head assembly having a grade setting device and a vibrating member, said screeding machine including a screed head support for supporting said screed head assembly, said soft landing control system comprising: a control operable to adjust the level of said vibrating member relative to said grade setting device to engage the vibrating member with the concrete surface at an onset or a screeding pass, said control being operable to position said vibrating member at an initial location that is generally at or near the onset of the screeding pass and above and offset from the concrete surface and from a desired grade level, said control being operable to automatically lower said vibrating member toward and into engagement with the concrete surface after said grade setting device is lowered to the desired grade level, said control being operable to automatically lower said vibrating member into engagement with the concrete surface in response to an activating event, wherein said activating event comprises a detection of said screed head assembly being at a predetermined height that is indicative of said grade setting device being at a predetermined distance above the desired grade level. 16. The soft landing control system of claim 15, wherein said predetermined height is determined in response to a laser receiver attached to said screed head assembly detecting a laser reference plane. 17. The soft landing control system of claim 15, wherein said control includes a timing device and is operable to lower said vibrating member into engagement with the concrete surface after a period of time following said activating event.
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이 특허에 인용된 특허 (26)
Haid Ray F. (125 Main Street North St. Clements ; Ontario CAX N0B 2M0), Adjustable screed and adjustment means therefor.
Quenzi Philip J. (Rte. 1 ; Box 56A Atlantic Mine MI 49905) Somero David W. (Wheeler Rd. New Ipswich NH 03071), Apparatus and method for controlling laser guided machines.
Kieranen Carl B. ; Hallstrom Charles A. ; Simula Glen R. ; Ruonavaara Nils P. ; Waineo James D., Apparatus and method for three-dimensional contouring.
Hansen Joel D. (5819 Fox Hunt Dr. Arlington TX 76017) Hansen Meloy F. (5819 Fox Hunt Dr. Arlington TX 76017), Apparatus for screening and trowelling concrete.
Quenzi, Philip J.; Kieranen, Carl B.; Torvinen, Jeffrey W.; Hallstrom, Charles A.; Pietila, Mark A., Concrete placing and screeding apparatus and method.
Quenzi, Philip J.; Kieranen, Carl B.; Torvinen, Jeffrey W.; Hallstrom, Charles A.; Pietila, Mark A., Concrete placing and screeding apparatus and method.
Davidson Richard W. ; Ohtomo Fumio,JPX ; Kimura Kazuaki,JPX ; Hirano Satoshi, Grading implement elevation controller with tracking station and reference laser beam.
Allen J. Dewayne (Paragould AR) Luebke Ralph (Memphis TN) Leyes Thomas J. (Oakville CAX), Laser operated automatic grade control system for concrete finishing.
Drr ; deceased Paul (late of Ketsch DEX by Magda Drr ; legal representative) Grundl Roland (Heiligkreuzsteinach DEX) Ulrich Alfred (Ladenburg DEX), Method and a device for controlling the vertical adjustment of a levelling plank.
Quenzi Philip J. (Wheeler Rd. Atlantic Mine MI) Somero David W. (Wheeler Rd. New Ipswich NH 03071) Somero Paul J. (New Ipswich NH 03071), Screeding apparatus and method.
Somero David W. (Wheeler Rd. New Ipswich NH 03071) Somero Paul J. (Gibbs Rd. New Ipswich NH 03071) Quenzi Philip J. (Atlantic Mine MI), Screeding apparatus and method.
Quenzi, Philip J.; Kieranen, Carl B.; Anderson, Frank E.; Torvinen, Jeffrey W.; Pietela, Mark A., Apparatus and method for improving control of a concrete screed head assembly.
Quenzi, Philip J.; Kieranen, Carl B.; Anderson, Frank E.; Torvinen, Jeffrey W.; Pietela, Mark A., Apparatus and method for improving the control of a concrete screed head assembly.
Quenzi,Philip J; Kieranen,Carl B; Anderson,Frank E; Torvinen,Jeffrey W; Pietila,Mark A, Apparatus and method for improving the control of a concrete screed head assembly.
Quenzi,Philip J.; Kieranen,Carl B.; Anderson,Frank E.; Torvinen,Jeffrey W.; Pietila,Mark A., Apparatus for improving the control of a concrete screed head assembly.
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