blade amphibious all terrain instructions

Speed: 20km/h. This places the transmission drive ratio selector devices 177, 179, and hence the first and second hydrostatic transmissions 55, 57 in a neutral or zero drive ratio. The foregoing detailed description is given primarily for clearness of understanding and no unnecessary limitations should be understood therefrom. 21 and 22 forward of the line A A of FIGS. 9. In the preferred embodiment, best illustrated in FIGS. 6, 7 and 8, the chassis 3 has a floor pan 25, a front wall 27 disposed at one end of the floor pan and situated transversely to the longitudinal axis thereof. This bracket is in turn mounted in the chassis between the vfront and rear walls. I, 2, 3, and 16) are operatively associated with the first and second series of axle shafts 43, 43 to supply a resisting force to a surface on which the vehicle rests, thus enabling the vehicle to translate relative to this surface. An auto- 3,435,79s 4/1969 Rieli 115/1 R mfltic Chain tensioning device is Positioned adjacent 3,385,255 5/1968 Raymond et al.. 115/1 R. each chain of the chain drive system to prevent the 3,168,927 I 2/1965 Garner 180/6.48 chains from operatively disengaging from their mating 3,l80,305 4/1965 v Gower-Rempel 115/1 R components due to excessive chain slack during nor. 1. Working fluid is thus prevented from circulating through the hydrostatic transmissions, and as a result hydraulic pressure is produced which prohibits the transmission output shafts 81 from rotating. 10. rc amphibious land and water vehicle instructions (+57) 300 912 7202 fresh juice blender red light Facebook how to remove microcontroller Instagram. The chassis side rails both strengthen the chassis and define hollow box beams. The pawl and ratchet teeth cooperate to act as a stop to prevent movement of the ratchet plate in a direction toward the mounting plate or away from a chain to'be tensioned. Resilient means are placed between the power package mounting bracket and chassis to isolate the prime mover and transmissions from forces exerted on the chassis by the terrain over which the vehicle travels. Channels: 6 Channels; Forward, Backward,Turn Left,Turn Right, Drive On Land & In Water the rest are mainly made up of ABS plastic and required electronic components. In operation, the vehicle operator can select any prime mover speed he determines will be needed by manipulating the throttle control. beautylish chantecaille. 3 is a side view of the vehicle shown in FIG. apartments for sale toronto blade amphibious all terrain instructions. Ain't no mountain high enough. FIG. 5. 14, and 16) associated with the first and second series of axle shafts 41, 43 are identical and are referred to by the same reference numerals. 21. The transmissions supply the power generated [51] Int. In the 1960s and 1970s the company made amphibious all-terrain vehicles that had six wheels known as the Terra Tiger . However, the lost motion means 171 becomes actuated at this point. This resilient means is biased to urge the ratchet plate to pivot about its pivot mounting in a direction generally toward the chain 131 to be tensioned, i.e. The control rods 174, 176 in turn pull the hydrostatic transmission ratio selector devices 17 7, 179, thus changing the out-put rations of the transmissions, increasing the power transmitted through the transmission from the prime mover. blade amphibious all terrain instructions. 4. 8. Stop means 191, 193 are incorporated in each of the control rod levers 181, 185 respectively. Scheduled pick-ups will be at the new location only. 7. into engagement with the ratchet teeth 127 of the ratchet plate 123. Cleaning Services. FIG. The infinitely variable steering and transmission control means, generally denoted as 169, includes a control actuating means or joint 175 (see FIGS. 1973 change ".logintudinal" to change "adjacne t" to change "Preferrably" to "of" to---or-. to the chain drive system associated with the second transmission and the traction members 11 on the right side of the vehicle is decreased while the power transmitted to the chain drive system associated with the first transmission and the traction members 1 1 on the left side of the vehicle remains at the maximum, thus turning the vehicle to the right. Driving Time: 20min. 17-19 & 21-22) which is pivotally mounted to the chassis 3 for motion in two planes generally perpendicular to each other, one plane being substantially parallel to a vertical plane along a longitudinal axis of the-vehicle, and the other plane substantially parallel to a horizontal plane through the longitudinal axis of the vehicle. UTV. Has electric start, hydraulic brakes, and skid steering. The wheels are essentially overgrown roller blade wheels. And not just during rescue operations, scientific . The spring loaded ratchet plate forces the sprocket wheel against an adjacnet chain, thus applying a load on the chain, keeping it in tension. with twin-differential or epicyclic gears differential power outputs being effected by additional power supply to one side, e.g. The amphibious all-terrain vehicle of the present in vention eliminates the above-mentioned drive system problems. 8 is a front sectional view of the chassis taken along line 3-8 of FIG. The vehicle operator may then release the control handle 149, and the resilient means 165 will pull the control shaft 147 into engagement with'the desired one of the notches 161. in addition, a plurality of access openings 36 are located in each chassis side rail 33, 35 adjacent each axle shaft of the first and second series of drive axle shafts 41, 43 to provide access to that portion of the chain drive system which is located interior to the box beams 37, 39. A plurality of traction members Ill (see FIGS. FIG. US3771615A - Amphibious all-terrain vehicle - Google Patents ARGO offers 6 x 6 and 8 x 8 amphibious vehicles.Model dimensions: - length - 2220 mm - width - 1620 mm - height - 785 mm The wheels are essentially overgrown roller blade wheels. RESERVE YOUR ALL-ELECTRIC AMPHIBIOUS ARGO XTV TODAY. In the preferred embodiment shown in FIG. An amphibious'all-terrain vehicle as defined in claim 5, wherein said chain drive system comprises: at least one first chain driving sprocket wheel operatively affixed to said output shaft of said first trans mission to rotate with said output shaft; at least one first chain driving sprocket wheel operatively affixed to said output shaft of said second transmission torotate with said output shaft; at least one idler sprocket assembly having at least first, second and third chain sprocket wheels rotatably mounted on a first axle shaft ,of said first series of axle shafts; at least one idler sprocket assembly havingat least first, second and third chain sprocket wheels rotatably mounted on a first axle shaft of said second series of axle shafts; at least one first driving chain operatively interconnecting said first chain driving sprocket wheel mounted on said output shaft of said first transmissionto said first chain sprocket wheel of said idler sprocket assembly mounted on said first axle shaft of said first series of axle shafts to transmit a torque from said first transmission to said idler sprocket assembly; at least one first driving chain operatively interconnecting said first chain driving sprocket wheel mounted on said output shaft of said second transmission to said first chain sprocket wheel of said idler sprocket assembly mounted on said first axle shaft of said second series of axle shafts to transmit a torque from said second transmission to said idler sprocket assembly; at least one second chain driven sprocket wheel operatively affixed to a second axle shaft of said first series of axle shafts; at least one second chain driven sprocket wheel operatively affixed to a second axle shaft of said second series of axle shafts; at least one second driving chain operatively interconnecting said second chain sprocket wheel of said idler sprocket assembly mounted on said first axle shaft of said first series of axle shafts to said second chain driven sprocket wheel affixed to said second axle shaft of siad first series of axle shafts to transmit said torque from said idler sprocket assembly to said second chain driven sprocket and hence to said axle shaft; at least one second driving chain operatively interconnecting said second chain sprocket wheel of said idler sprocket assembly mounted on said first axle shaft of said second series of axle shafts to said second chain driven sprocket wheel affixed to said second axle shaft of said second series of axle shafts to transmit said torque from said idler sprocket assembly to said second chain driven sprocket and hence to said second axle shaft; at least one third chain driven sprocket wheel operatively affixed to said second axle shaft of said first series of axle shafts to rotate with said second axle shaft; at least one third chain driven sprocket wheel operatively affixed to said second axle shaft of said second series of axle shafts to rotate with said second axle shaft; at least one fourth chain driven sprocket wheel operatively affixed to said first axle shaft of said first series of axle shafts; at least one fourth chain driven sprocket wheel operatively affixed to said first axle shaft of said second series of axle shafts; at least one third driving chain operatively interconnecting said third chain sprocket wheel affixed to said second axle shaft of said first series of axle shafts to said fourth chain driven sprocket wheel affixed to said first axle shaft of said first series of axle shafts to transmit said torque from said second axle shaft to said fourth chain driven sprocket wheel and hence to said first axle shaft, said first axle shaft therefore constituting a jackshaft; at least one third driving chain operatively interconnecting said third chain sprocket wheel attached to said second axle shaft of saidsecond series of axle shafts to said fourth chain driven sprocket wheel attached to said first axle shaft of said second series of axle shafts to transmit said torque from said second axle shaft to said fourth chain driven sprocket wheel and hence to said first axle shaft, said first axle shaft therefore constituting a jackshaft; at least one fifth chain driven sprocket wheel operatively affixed to a third axle shaft of said first series of axle shafts; at least one fifth chain driven sprocket wheel operatively affixed to a third axle shaft of said second series of axle shafts; at least one fourth driving chain operatively interconnecting said third chain sprocket wheel of said idler sprocket assembly mounted on said first axle shaft of said first series of axle shafts to said fifth chain driven sprocket wheel affixed to said third axle of said first series of axle shafts to transmit said torque from said idler sprocket assembly to said fifth chain driven sprocket wheel and hence to said third axle shaft; and v at least one fourth driving chain operatively interconnecting said third chain sprocket wheel of said idler sprocket assembly mounted on said first axle shaft of said second series of axle shafts to said fifth chain driven sprocket wheel affixed to said third axle of said series of axle shafts to transmit said torque from said idler sprocket assembly to said fifth chain driven sprocket wheel and hence to said third axle shaft. 12, and. The lost motion means includes at least two spring loaded control levers each pivotally mounted at one end to the control actuating means. 8. 7. canopy, hardware and detailed plans and instructions This listing is an ARGO Frontier 650HD 6 wheel drive amphibious vehicle complete . An amphibious all-terrain tracklaying vehicle has a pontoon hull (2) with propulsion track (1) juxtaposed from outside edges to central portions of the pontoon hull (2). 21 and 22. A prime mover (11) and control center (22) are positioned on a deck framework (19) above the pontoon hull (2). FIG. Under particular predetermined conditions the control actuating means can be actuated to move about its pivot mounting without imparting a motion to the control levers, the forces applied to the control levers by the actuating means being used to compress the spring of one of the spring loaded control levers instead of displacing the control lever in a manner to exert a force on the transmission ratio selector device control means. An amphibious all-terrain vehicle as defined in claim 9, wherein said infinitely variable steering and transmission control means comprises in combination: a control actuating joint pivotally mounted to said vehicle for motion in two planes generally perpendicular to each other one of said planes being substantially parallel to said vertical plane along a longitudinal axis of said vehicle; -a first control rod lever pivotally mounted at one of its ends to a side of said control actuating joint; a second control rod lever pivotally mounted at one of its ends to a side of said control actuating joint opposite said side thereof to which said first control rod lever is mounted; resilient means connected to said first control rod lever being biased to produce a force which tends to resist movement of said first control rod lever in one direction about its pivot mounting; resilient means connected to said second control rod lever being biased to produce a force which tends to resist movement of said second control rod lever in one direction about its pivot mounting; when a force exerted on said first and second control rod levers exceeds said resisting forces produced by said resilient means, said resilient means are no longer capable of resisting said movement of said control rod levers about their pivot mountings thus allowing said control rod levers to move about their respective pivot mountings, the location of a point at which said force is exerted on said control rod levers remaining substantially static; stop means which limit the rotation of said first and second control rod levers about their respective mounting points in a direction opposite said direction in which said resilient means resist motion of said first and second control rod levers; a first control rod pivotally mounted at one of its ends to an end of said first control lever opposite said end of said first control rod lever which is pivotally mounted to said control actuating joint and pivotally mounted at its opposite end to a ratio selector device of said first transmission; and. 5. For example, any number of prime movers such as Wankel, Otto cycle, Diesel cycle, Vapor power cycle engines or compound power plants incorporating a number of these cycles may be used. At least one first driving chain 99 operatively interconnects the first chain driving sprocket wheel 87 to the first chain sprocket wheel 91 of the idler sprocket assembly 89 to transmit power and rotational motion from the transmission to the idler sprocket assembly. It's one of the craziest vehicles we've driven. The sprocket wheel 129 thereby contacts the chain 131 and applies a constant force against the chain in a direction substantially transverse thereto, hence subjecting the chain to tensioning forces. 2-(diethylamino)ethyl 2-acetyloxybenzoate, LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS, Steering non-deflectable wheels; Steering endless tracks or the like, Steering non-deflectable wheels; Steering endless tracks or the like by differentially driving ground-engaging elements on opposite vehicle sides, Steering non-deflectable wheels; Steering endless tracks or the like by differentially driving ground-engaging elements on opposite vehicle sides by means of separate power sources, VEHICLES FOR USE BOTH ON RAIL AND ON ROAD; AMPHIBIOUS OR LIKE VEHICLES; CONVERTIBLE VEHICLES, Amphibious vehicles, i.e. Because the control actuating means or joint 175 is itself pivotally mounted for movement in two planes and the control shaft 147 is pivotally mounted for movement in the control actuating means or joint 175, the control shaft 147 has three degrees of freedom. with twin-differential or epicyclic gears, Steering non-deflectable wheels; Steering endless tracks or the like by differentially driving ground-engaging elements on opposite vehicle sides by means of a single main power source using gearings with differential power outputs on opposite sides, e.g. 15 is a view from the side of the chassis showing a portion of the chain drive system. 1, 2 and 3, the amphibious all-terrain vehicle, generally denoted as 1, includes a chassis 3 having a generally concave recess 5, a body 7, having at least one passenger compartment 9, extending substantially the entire length and width of the chassis and affixed thereto, and a plurality of traction members 11 disposed on opposite sides of the vehicle. 2, I4, 15 and 16) extend outwardly from opposite chassis side walls 31. An amphibious all terrain vehicle as defined in claim 8, wherein said chain tensioning devIces comprise in combination: a tensioning device mounting plate adapted to be secured to a structure; at least one elongated ratchet plate pivotally mounted at one of its ends to one end of said mounting plate; a plurality of ratchet teeth formed in an end of said ratchet plate opposite said end pivotally mounted to said mounting plate; a sprocket wheel adapted to operatively engage one of said chains to be tensioned rotatably mounted at said end of said ratchet plate contaning said ratchet teeth, and being disposed such that its sprocket teeth extend beyond the longitudinal edges of said elongated ratchet plate; first resilient means operatively associated with said ratchet plate biased to urge said ratchet plate to pivot about its pivot mounting in a direction generally toward said chain to be tensioned thereby causing said sprocket wheel to contact and apply a constant force against said chains to be tensioned thus keeping it in tension; a pawl adapted to engage said ratchet teeth pivotally mounted at one end to an end of said mounting plate opposite said end to which said ratchet plate is pivotally mounted, said pawl being disposed to prevent movement of said ratchet plate in a direction generally away from said chains to be tensioned; and second resilient means operatively associated with said pawl biased to urge said pawl to pivot about its pivot mounting in a direction toward said ratchet teeth to assure the engagement of said pawl with said ratchet teeth thereby holding said sprocket wheel in engagement with said chain to be tensioned against forces exerted by said chain on said sprocket wheel which would tend to cause said ratchet plate to pivot about its mounting in a direction generally away from said chain thus decreasing the force exerted on said chain by said ratchet wheel. I l is a front view of the transmission mounting means shown in FIG. Amphibious Function Body Material: ABS Plastics. Description of Prior Art The prior art amphibious all-terrain vehicles experience a number of drive system problems such as short chain drive system life due to a lack of lubrication, drive chains disengaging from their mating drive system components upon a sudden change in direction of the driving forces applied to the drive system by the transmissions, inadequate driving torque due to low, or no multiplication of the engine torque as it is transmitted to the drive system from the transmissions, and failure of the engine and transmissions due to rigidly mounting them to the vehicle, thus subjecting them to the forces exerted on the vehicle as it translates over undulating terrain. 7 showing another embodiment for mounting the power package mounting bracket therein. Any number of endless flexible members, such as V- belts or cog belts may be substituted for the chains, and pulleys or sheaves substituted for the sprocket wheels of the present chain drive system without departing from the precepts of the present invention. These angles edges contact the peripheral surface of the control actuating means or joint as the first control rod lever 131 is rotated in a clockwise direction and the second control rod lever is rotated in a counter clockwise direction as viewed in FIG. September 11, 2022 . road to hana private tour; large shipping containers for sale; blue work jacket women's; best upright walker for outdoor use 21 and 22, these stop means 191, .193 are angled edges formed in each of control rod levers 181, 185. 10320 west olympic boulevard los angeles california 90064. hangar 9 carbon cub 15cc build; long center schedule 2022 The motion of the control actuating joint 175 causes the second control rod lever 185 on the right side of the vehicle to be displaced in a direction decreasing the distance between it and the second hydrostatic transmission thus pushing the second control rod 176 and the ratio selector device 179 of the second hydrostatic transmission 57 rearward. An amphibious all-terrain vehicle, which comprises in combination: a chassis having a floor pan, a front wall disposed at one end of said floor pan and situated transversely thereto, a rear wall disposed at the opposite end of said floor pan and disposed transversely thereto, two spaced apart side walls disposed along opposite longitudinal sides of said floor pan, said floor pan being structurally associated with said front wall, rear wall and side walls to form a unitized structure; at least two spaced apart chassis side rails located interior to said chassis disposed along opposite longitudinal sides of and extending substantially the entire length of said chassis, each of said chassis side rails being structurally associated with said front wall, rear wall, one of said side walls and said floor pan and defining a hollow box beam; a first and second series of drive axle shafts extending outwardly from opposite side walls and being rotatably mounted in said side walls and said chassis side rails; a Plurality of traction members operatively associated with a first and second series of drive axle shafts adapted to support said vehicle on, and to supply a resisting force to a surface upon which said vehicle rests to enable said vehicle to translate relative to said surface; a power package including at least one prime mover and at least a first and a second hydrostatic transmission operatively associated with said prime mover; a power package mounting bracket to which said power package is mounted, said bracket being disposed between said front and rear walls and mounted in said chassis; at least one transmission mounting means for each of said first and second hydrostatic transmissions connecting each of said transmissions to said chassis; one end of each said transmission mounting means is associated with an output shaft portion of its respective transmission, and an opposite end of each said transmission mounting means is structurally associated with said chassis; each of said output shaft portions of said transmissions are journaled in a bearing structure in said transmission mounting means constituting a trunnion mounting disposed concentrically with said transmission output shaft, thus allowing each of said transmissions to rotate about the longitudinal axis of its output shaft thereby isolating said transmissions from forces exerted on said chassis by said surfaces over which said vehicle translates; a chain drive system operatively connecting an output shaft of said first hydrostatic transmission to said first series of drive axle shafts, and an output shaft of said second hydrostatic transmission to said second series of drive axle shafts, a portion of said chain drive system being disposed in said hollow box beam; a vehicle operator''s control means; an infinitely variable steering and transmission control means operatively connecting said first and second hydrostatic transmissions to said operator''s control means to enable a vehicle operator to steer, to control the forward and reverse directions, and to control the speed of said vehicle by manipulating said vehicle operator''s control means; a prime mover throttle control means operatively associated with said prime mover to enable the vehicle operator to control the power output of said prime mover; and a vehicle body extending substantially the entire width and length of, and fixed to said chassis, said body having at least one passenger compartment.