IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0613513
(2000-07-10)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
21 |
초록
▼
Roadway crack sealing apparatus (20) which includes a mobile vehicle (26) with a forward crack sealing assembly (22) and a following finishing assembly (24). The assembly (22) includes laterally spaced apart fill and sealant hoppers (30, 36) each equipped with selectively openable outlets (32, 34, 3
Roadway crack sealing apparatus (20) which includes a mobile vehicle (26) with a forward crack sealing assembly (22) and a following finishing assembly (24). The assembly (22) includes laterally spaced apart fill and sealant hoppers (30, 36) each equipped with selectively openable outlets (32, 34, 38) and an elongated roadway crack sighting passageway (128) therebetween. The fill hopper preferably has a pair of outlets (32, 34), with the sealant hopper (38) between the latter so that a crack is sealed by sequential application of fill, sealant and additional fill. In use, an operator within the vehicle compartment (162) visually locates a crack (28) through the passageway (128), and steers the vehicle (26) accordingly; the operator also manipulates appropriate controls for selectively opening the outlets (32, 34, 38). The finishing assembly (24) includes a series of lateral brushes which sweep and finish the sealed crack and adjacent roadway.
대표청구항
▼
Roadway crack sealing apparatus (20) which includes a mobile vehicle (26) with a forward crack sealing assembly (22) and a following finishing assembly (24). The assembly (22) includes laterally spaced apart fill and sealant hoppers (30, 36) each equipped with selectively openable outlets (32, 34, 3
Roadway crack sealing apparatus (20) which includes a mobile vehicle (26) with a forward crack sealing assembly (22) and a following finishing assembly (24). The assembly (22) includes laterally spaced apart fill and sealant hoppers (30, 36) each equipped with selectively openable outlets (32, 34, 38) and an elongated roadway crack sighting passageway (128) therebetween. The fill hopper preferably has a pair of outlets (32, 34), with the sealant hopper (38) between the latter so that a crack is sealed by sequential application of fill, sealant and additional fill. In use, an operator within the vehicle compartment (162) visually locates a crack (28) through the passageway (128), and steers the vehicle (26) accordingly; the operator also manipulates appropriate controls for selectively opening the outlets (32, 34, 38). The finishing assembly (24) includes a series of lateral brushes which sweep and finish the sealed crack and adjacent roadway. -PATENT]0963845, EP; 0963845, EP; 1023999, EP; 1 093 917, EP the power buggy by manipulating a kill control switch without releasing the operator's handle with either hand. 6. The method as recited in claim 5, wherein the steering step is performed by gripping opposed handgrips of the operator's handle, and wherein the dumping, changing, and shutting off steps are all performed without releasing a handgrip with either hand. 7. A method comprising: (A) supplying motive power to at least one drive wheel of a power buggy to propel the power buggy; and (B) during the supplying step, changing a direction of power buggy travel from forward to reverse by actuating a two-position directional control switch having only a forward position and a reverse position. 8. A power buggy comprising: (A) a plurality of wheels; (B) a movable chassis which is supported on the wheels and which has front and rear end portions; (C) a dumpable article support which is supported on the front end portion of the chassis; (D) a pump assembly that supplies power to the wheels; (E) an operator's handle which includes first and second handgrips designed to be grasped by an operator's hands; and (F) a single electric directional control switch which is configured to change direction of travel of the power buggy, wherein the electric directional control switch has only first and second positions, wherein one of the first and second position controls a forward direction and the other of the first and second positions controls a reverse direction of the power buggy, and wherein said directional control switch is the only directional control device for said power buggy. 9. A power buggy comprising: (A) a plurality of wheels; (B) a movable chassis which is supported on the wheels and which has front and rear end portions; (C) a dumpable article support which is supported on the front end portion of the chassis; (D) a pump assembly that supplies power to the wheels; (E) an operator's handle which includes first and second handgrips designed to be grasped by an operator's hands; (F) a squeeze lever which, when actuated, causes the power buggy to propel itself in a selected direction from a stationary position thereof; (G) a single electric directional control switch, wherein the electric directional control switch has only first and second positions, wherein selection of one of the first and second positions causes the power buggy to propel itself in a forward direction upon actuation of the squeeze lever and selection of the other of the first and second positions causes the power buggy to propel itself in a reverse direction upon actuation of the squeeze lever; (H) a kill switch which can be selectively manually actuated to shut off the power buggy; and (I) a dump switch which can be selectively manually actuated to dump the dumpable article support, wherein the directional control switch, the squeeze lever, the kill switch, and the dump switch are positioned such that they can all be operated without releasing the operator's handle with either hand. 10. A power buggy comprising: (A) a plurality of wheels; (B) a movable chassis which is supported on the wheels and which has front and rear end portions; (C) a dumpable article support which is supported on the front end portion of the chassis; (D) a pump assembly that supplies power to the wheels; (E) an operator's handle which includes first and second handgrips designed to be grasped by an operator's hands; and (F) an electric directional control switch which is configured to change direction of travel of the power buggy, wherein the electric directional control switch comprises a two-position switch having only first and second positions, wherein one of the first and second positions controls a forward direction and the other of the first and second positions controls a reverse direction of the power buggy. 11. A power buggy comprising: (A) a plurality of wheels; (B) a movable chassis which is supported on the wheels and which h as front and rear end portions; (C) a dumpable article support which is supported on the front end portion of the chassis; (D) a pump assembly which supplies power to the wheels and which charges a hydraulic system of the power buggy; (E) an operator's handle which includes first and second handgrips designed to be grasped by an operator's hands; (F) a directional control switch which can be selectively manually actuated to change direction of travel of the power buggy; (G) a kill switch which can be selectively manually actuated to shut off the power buggy; and (H) a dump switch which can be selectively manually actuated to dump the dumpable article support, wherein the directional control switch, the kill switch, and the dump switch are all actuatable without releasing the handgrips with either hand. 12. A power buggy comprising: (A) a plurality of wheels; (B) a movable chassis which is supported on the wheels and which has front and rear end portions; (C) a dumpable article support which is supported on the front end portion of the chassis; (D) a pump assembly that supplies power to the wheels; (E) an operator's handle which includes first and second handgrips designed to be grasped by an operator's hands; (F) a squeeze lever which, when actuated, causes the power buggy to propel itself in a selected direction from a stationary position thereof; and (G) a single electric directional control switch, wherein the electric directional control switch has only first and second positions, wherein selection of one of the first and second positions causes the power buggy to propel itself in a forward direction upon actuation of the squeeze lever and selection of the other of the first and second positions causes the power buggy to propel itself in a reverse direction upon actuation of the squeeze lever. 13. The power buggy as recited in claim 12, wherein the directional control switch and the squeeze lever are positioned such that they can both be operated without releasing the operator's handle with either hand. 14. The power buggy s recited in claim 13, further comprising a kill switch which can be selectively manually actuated to shut off the power buggy, and a dump switch which can be selectively manually actuated to dump the dumpable article support, wherein the kill switch and the dump switch are positioned such that they are both actuatable without releasing the operator's handle with either band. 15. The power buggy as recited in claim 12, wherein the squeeze lever includes (1) a pivot portion that includes (a) a free end that is pivotally mounted on a handgrip of the power buggy, and (b) first and second legs that extend at converging angles from the free end and the lever portion, respectively, and that are joined to one another at a corner of the pivot portion, (2) a lever portion, and (3) a cable mount that is spaced from the free end and from the lever portion, wherein actuation of the squeeze lever propels the power buggy at a speed that is dependent upon the magnitude of squeeze lever pivoting, wherein the cable mount and the end of lever portion are spaced apart at a distance of from about 5" to 7" . 16. An operator's handle designed for use on a power buggy, the handle comprising: (A) first and second handgrips which are designed to be grasped by an operator's hands; (B) a squeeze lever which includes (1) a pivot portion that includes (a) a free end that is pivotally mounted on a handgrip of the power buggy, and (b) first and second legs that extend at converging angles from the free end and the lever portion, respectively, and that are joined to one another at a corner of the pivot portion, (2) a lever portion, and (3) a cable mount that is spaced from the free end and from the lever portion, wherein actuation of the squeeze lever propels the power buggy at a speed that is dependent upon the magnitude of squeeze lever pivoting, wherein the cable mount and the end of lever portion are spaced a
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