EP3006624B1 - Control lever assembly for walk-behind compaction roller - Google Patents
Control lever assembly for walk-behind compaction roller Download PDFInfo
- Publication number
- EP3006624B1 EP3006624B1 EP14187779.5A EP14187779A EP3006624B1 EP 3006624 B1 EP3006624 B1 EP 3006624B1 EP 14187779 A EP14187779 A EP 14187779A EP 3006624 B1 EP3006624 B1 EP 3006624B1
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- EP
- European Patent Office
- Prior art keywords
- control
- grip
- assembly
- site
- grip site
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
- E01C19/00—Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving
- E01C19/22—Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving for consolidating or finishing laid-down unset materials
- E01C19/23—Rollers therefor; Such rollers usable also for compacting soil
- E01C19/26—Rollers therefor; Such rollers usable also for compacting soil self-propelled or fitted to road vehicles
- E01C19/262—Rollers therefor; Such rollers usable also for compacting soil self-propelled or fitted to road vehicles pedestrian-controlled, e.g. with safety arrangements for operator
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
- E01C19/00—Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving
- E01C19/22—Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving for consolidating or finishing laid-down unset materials
- E01C19/23—Rollers therefor; Such rollers usable also for compacting soil
- E01C19/28—Vibrated rollers or rollers subjected to impacts, e.g. hammering blows
- E01C19/282—Vibrated rollers or rollers subjected to impacts, e.g. hammering blows self-propelled, e.g. with an own traction-unit
- E01C19/283—Vibrated rollers or rollers subjected to impacts, e.g. hammering blows self-propelled, e.g. with an own traction-unit pedestrian-controlled, e.g. with safety arrangements for operator
Definitions
- Walk-behind compaction rollers are used to compact soil and asphalt in order to provide a firm foundation for structural building, to reduce future settlement of soil, or to compact asphalt for pathway, road, and parking lot construction.
- Such machines are commonly controlled by a single operator who follows behind the machine to direct the machine's travel direction and actuate its vibration control(s).
- a control arm extends rearwardly from the machine and provides the mechanical advantage to allow the operator to physically manipulate the direction of travel of the machine.
- Such machines may have one drum (single-drum) or two (dual-drum) drums acting as compaction surface(s).
- One method to control the speed and direction (forward and/or rearward) of such machines is with a control lever that is supported at a rearward end portion of the control arm and whose position relative to the control arm actuates forward and reverse self-propelled travel of the machine.
- a control lever that is supported at a rearward end portion of the control arm and whose position relative to the control arm actuates forward and reverse self-propelled travel of the machine.
- such machines can be steered with a lateral force applied to the control arm to effectuate turning of the machine.
- a spring force returns the control lever into the neutral position, and the machine ceases all travel.
- Such machines are also commonly provided with a button or plunger that is disposed on a rearward distal end of the control arm and which interacts with the control associated with manipulation of the control lever. Depression of the button from behind the machine can suspend travel of the rolling machine altogether or at least prevent rearward propulsion of the machine while permitting forward propulsion. Such a configuration prevents an operator from being pinned between the machine and an obstacle behind the machine.
- control arm is set to obtain leverage sufficient to allow a single operator to turn the machine by imparting lateral directional forces of a manageable magnitude to the control arm.
- compaction roller In addition to the physical interaction of the operator with the control arm and the control lever, desired operation of the compaction roller requires the operator be able to readily visually inspect the operating environment to assess the speed and direction of travel relative to, for instance, areas already compacted, obstructions such as trench walls, other personnel, equipment, grade stakes or markings, already set formwork, etc. Because the rearward orientation of the control arm and control lever places the operator in a position that is substantially directly behind the compaction roller, the compaction roller can substantially hinder the operator's ability to visually inspect the operating environment.
- Fig. 24 a visible area is denoted by lines 30 relative to the underlying compaction roller 32.
- a visible area is denoted by lines 30 relative to the underlying compaction roller 32.
- Such a configuration requires the operator to frequently reposition his body relative to the control arm 34 and the control lever 36 in order to achieve a desired orientation required to visually inspect the longitudinal edges 38 that extend along generally opposite lateral sides of the underlying compaction roller 32.
- the position and orientation of the control lever relative to the control arm of many manually steered compaction rollers are ill-suited to allow the operator to attain various operating positions relative to the control arm and the control lever to provide the desired physical interaction with both the control arm and the control lever. They also provide for only limited positional association of the operator relative to the control arm to improve the visibility associated with operation of the compaction roller while maintaining a desired interaction of the operator with the control arm and the control lever. That is, the operators of such devices must commonly shuffle their left and right hands into and out of interaction with the control lever and/or the control arm or control handles to achieve the desired visibility and operator physical positioning with respect to the compaction roller controls to achieve the desired changes to the operating status and direction of travel of the compaction roller.
- FR 2 355 122 A1 discloses a compaction roller having a control arm on which a control lever and a safety lever are provided. Backward movement of the safety lever is restricted by a handle of the control arm. The safety lever interacts with the control lever such that also backward movement of the control lever beyond a predetermined position is restricted.
- Figs. 1-20 are various views of a control arrangement of a manually steered compaction roller according to one embodiment of the invention.
- Figs. 21-23 show alternate embodiments of the invention that achieve the same benefits as disclosed with respect to the following description of Figs. 1-20 .
- the various embodiments are encompassed by the scope of the appended claims.
- Fig. 1 shows a compaction roller 40 having a control arm 42 that may be pivotably and/or removably connected to a frame 44 of the compaction roller 40.
- Compaction roller 40 includes an engine 46 and a hydraulic system 48 associated therewith.
- Engine 46 can be provided in various configurations such as electric start, pull start, and crank start configurations.
- compaction roller 40 is provided with a crank handle 47 ( Fig. 2 , Fig. 5 ) configured to be removably associated with a crankshaft associated with engine 46 for initiating the first combustion compression cycle and thereby manual starting of engine 46.
- Crank handle 47 removably cooperates with control arm 42 such that the orientation shown in Fig. 2 is associated with a storage position of crank handle 47 relative to compaction rollers 40 equipped with a crank start feature. Understandably, crank handle 47 need not be provided with compaction rollers having electric start and/or recoil start engine configurations.
- a first drum 50 and a second drum 52 of compaction roller 40 are supported by frame 44 and constructed to compact the ground surface 54 associated with movement of compaction roller 40.
- drums 50, 52 can be directly or indirectly excitable so as to enhance the compaction performance associated with operation of compaction roller 40.
- an eccentric weight may be located on a lower portion of frame 44 between the two drums 50 to vibrate both drums 50 and 52.
- the upper portion of the frame may be vibrationally isolated from the lower portion by shock mounts or the like.
- At least one drum, and possibly both, is bi-directionally drivable to propel the compaction roller back and forth or in a forward and a rearward direction relative to the supporting ground surface.
- a pivot assembly 56 pivotably connects control arm 42 to frame 44 such that control arm 42 can be pivoted about a horizontal axis between an in-use orientation, as shown in Fig. 1 , in which the control arm 42 extends generally rearward from frame 44 and a storage or transport orientation, indicated by arrow 58, for reducing the footprint associated with compaction roller 40 when not in use.
- control arm 42 can be secured in one or both of the in-use and storage or transport orientations.
- control arm 42 can be secured in the storage orientation but freely movable from the in-use orientation toward the storage orientation. It is appreciated that such configurations can include one or more catch arrangements that can be manipulated by the user to change the orientation of control arm 42 relative to frame 44 of compaction roller 40.
- a control or an operator area 60 of compaction roller 40 is defined in the vicinity of a rearward portion 62 of control arm 42 and offsets an operator in a rearward longitudinal length or distance, indicated by dimension 63, relative to roller 40.
- dimension 63 an exemplary dimension or distance 63 is shown in the drawings, it is appreciated that the length of control arm 42 can be selected to improve the mechanical advantage associated with manual turning during operation of compaction roller 40. It is appreciated that a greater distance between compaction roller 40 and operator area 60 will increase the mechanical advantage associated with control arm 42, whereas shorter distances will require the operator to impart greater forces to control arm 42 to yield comparable turning performance than associated with longer control arms.
- control arm 42 can be pivotably connected to compaction roller 40 to be settable at various elevations to accommodate operators of different heights and/or provide different positions of the operator area 60 to suit different operator preferences - such as the control area being positioned at a hip height or rib height as different operators may prefer or different operational situations may require.
- operator area 60 includes a control lever assembly or control lever 64; one or more control handles 66, 68; and can include one or more of an exciter control or exciter control assembly 70; a throttle control or throttle control assembly 71, and a plunger or button 72.
- alternate ends of control handles 66, 68 are rigidly connected to control arm 42 whereas control lever 64 is pivotably or otherwise movably connected thereto such that control lever 64 is movable relative to both control arm 42 and control handles 66, 68.
- control handles 66, 68 provide for a rigid interaction of the user with control arm 42 during operation of compaction roller 40.
- control lever 64 cooperates with a push-pull cable 74 associated with generating forward and rearward linear operation of compaction roller 40 as a function of the orientation of control lever 64 relative to control arm 42.
- control lever 64 is biased to a neutral position associated with suspending propulsion of compaction roller 40 in either the forward or the rearward directions.
- push-pull cable 74, or any other suitable linkage can be provided in any of a number of suitable configurations for communicating instructions associated with the orientation of control lever 64 to the underlying compaction roller 40.
- push-pull cable 74 and/or the control lever 64 can be configured to manipulate any of a number of operational systems, such as a hydraulic system or an electrical system associated with generating the desired forward, rearward, and neutral or non-moving operation of compaction roller 40. It is further appreciated that control lever 64 and/or the push-pull cable 74 can be configured to interact with various systems, such as relays, valves, etc., associated with generating the desired manipulation of the underlying operation of compaction roller 40.
- one or more of exciter control 70 and engine controls are positioned on control arm 42 proximate operator area 60 such that a user or operator engaged with control lever 64 can interact with and control operation of the engine and/or the exciter associated with operation of compaction roller 40.
- the exciter control 70 and throttle control 71 can be configured to maintain a desired operation of the respective exciter and/or throttle associated with the underlying engine 46 without sustained operator interaction with the respective exciter control 70 and/or throttle control 71.
- exciter control 70 and/or throttle control 71 be provided with a push-pull cable, elongated connector, gears, transmission, fluid system, relays, valves, etc. and/or an electrical system to effectuate communication of the exciter operation instructions and/or discrete throttle control instructions from operator area 60 to the respective underlying exciter and throttle systems of roller 40.
- exciter control 70 is positioned nearer push button 72 than throttle control 71 as many users prefer to more commonly adjust operation of the exciter assembly than manipulate the throttle position during operation of compaction roller 40.
- each of exciter control 70 and throttle control 71 are configured to be manipulated by a single hand of a user such that the desired orientation of control lever 64 can be maintained even during adjustment of exciter control 70 or throttle control 71.
- control lever 64 rotates about a pivot axis 86, thereby manipulating the orientation of cable 74 to achieve the desired change in the operating condition of compaction roller 40.
- the control lever 64 is directly or indirectly biased to its neutral position such as, for example, by a spring acting on a pump control lever (not shown) to which the cable 74 is connected so that forward/rearward operation of compaction roller 40 is suspended whenever the operator releases control lever 64.
- the push-pull cable 74 preferably is coupled to the hydraulic pump or other propulsion system of the compaction roller 40 such that the compaction roller 40 is propelled at a speed that is generally proportional to the extent of movement of the control lever 64 relative to its the neutral position.
- exciter control 70 includes a stem 90 having a ball 92 attached to an end thereof.
- a flange 94 is secured to control arm 42 and is constructed to support exciter stem 90 relative thereto.
- a pivot assembly 96 pivotably connects exciter stem 90 relative to flange 94.
- a push/pull cable 98 is connected to exciter stem 90 offset from the axis associated with pivot assembly 96 such that cable 98 communicates exciter operation instructions from operator area 60 to the exciter associated with compaction roller 40.
- Throttle control 71 includes a throttle control stem 100 having a ball 102 connected at an end thereof.
- a pivot assembly 104 pivotably connects throttle control stem 100 to flange 94.
- a push/pull cable 106 is connected to throttle control stem 100 at a location offset from the axis of rotation associated with pivot assembly 104 such that movement of throttle control stem 100 relative to control arm 42 manipulates the throttle condition and thereby the engine speed associated with operation of compaction roller 40.
- exciter control stem 90 and throttle control stem 100 are constructed to pass through one or more openings 108, 110 defined by control arm 42.
- a faceplate 112 cooperates with control arm 42, exciter control stem 90, and throttle control stem 100 so as to generally overlie openings 108, 110 defined by control arm 42.
- Faceplate 112 includes a first elongated opening 114 that slidably cooperates with exciter control stem 90 and a second elongated opening 116 that slidably cooperates with throttle control stem 100.
- Opening 116 of faceplate 112 can include one or more catches 118, 120 associated with maintaining a desired orientation of throttle control stem 100 relative to faceplate 112.
- throttle control stem 100 when throttle control stem 100 is associated with a respective catch 118, 120, such cooperation maintains throttle control stem 100 in the desired orientation with respect to a desired configuration of the engine throttle assembly and thereby maintains a desired engine speed associated with operation of compaction roller 40. It is further appreciated that opening 114 associated with exciter control 70 could include similar such catches. Balls 92, 102 associated with the respective exciter control stem 90 and throttle control stem 100 removably cooperate with the respective control stem such that faceplate 112 can be secured to control arm 42 in close slidable cooperation with exciter control stem 90 and throttle control stem 100.
- control arm 42 includes an opening 124 that slidably cooperates with a crank handle stem 125 associated with crank handle 47.
- Crank handle 47 includes a handle 128 that snap fittingly cooperates with a catch 130 such that crank handle 47 can be securely supported by control arm 42 when not in use.
- a shock arrangement 132 that includes one or more bushings 134, 136 that are disposed between frame 44 and control arm 42. Understandably, bushings 134, 136 can be secured to one of frame 44 of compaction roller 40 or control arm 42 and configured to engage the other of frame 44 or control arm 42 when control arm 42 is oriented in the in-use position. Bushings 134, 136 help to mitigate communication of vibration associated with operation of compaction roller 40 and/or the exciter associated therewith along control arm 42 toward the user associated with operator area 60.
- control lever 64 includes a first grab or grip site 140 and a second grab or second grip site 142 that are offset in opposite lateral directions, indicated by arrow 143, relative to a longitudinal axis or center-line, indicated by arrow 145, of control arm 42.
- Control handle 66 and control handle 68 have generally arcuate shapes that allow grip sites 140, 142 to be maintained in close proximity to the respective grip handle 66, 68 throughout the range of pivotable translation of control lever 64 about pivot axis 86.
- grip handles 66, 68 are curved relative to both the vertical and horizontal planes that correlate to rotation of control lever 64.
- the larger curvature of handles 66, 68 i.e., the curvature oriented in a generally vertical plane, is between about five inches and nine inches in radius or more preferably about seven inches in radius.
- the more horizontal curvature of handles 66, 68 are between one and four inches in radius and preferably in about a two inch radius.
- the rearward and forward curvatures are selected to provide comfortable ergonomic interaction, such as 30-40 degrees of wrist rotation, associated with orientation of the hand(s) of the operator for various operating positions relative to the control arm 42.
- ranges of radii can be provided as a function of the lateral thickness of control arm 42, the range of motion of control lever 64, and/or to provide desired ergonomic interaction with handles 66, 68 for various lateral and rearward positions of the operator relative to the distal end 82 of control arm 42.
- Each such configuration allows an operator to grasp a respective portion of the respective control handles 66, 68 and/or a respective grip site 140, 142 throughout the movable range of control lever 64 and relative to the opposite lateral sides of control arm 42.
- a construction allows the operator to position himself at locations further outboard of the longitudinal axis 145 of control arm 42 than would otherwise be possible while maintaining secure interaction with control lever 64 and at least one of control handles 66, 68.
- Control lever 64 and control handles 66, 68 thus allow an operator to securely grasp at least one of control handles 66, 68 of compaction roller 40, even during manipulation of control lever 64 and/or interaction with exciter control 70 and/or throttle control 71 to maintain a desired operation and direction of travel of roller 40 even when located at various positions relative to control arm 42.
- Control handles 66, 68 are also rigidly constructed to tolerate the lateral loading of control arm 42 during turning operations and are maintained in close proximity to grip sites 140, 142 to allow a user to bias control arm 42 in lateral directions without imparting the lateral loading forces to control lever 64.
- control lever 64 includes a body 144 having a first end 146 that defines an opening 148 associated with supporting control lever 64 about pivot axis 86 relative to control arm 42.
- First end 146 includes a boss 150 that is shaped to cooperate with a pin 152 oriented to engage a tang 154 that is positionally associated with body 144.
- Tang 154 is operationally connected to cable 74 to effectuate generally longitudinal displacement, indicated by arrow 113, of the cable to effect speed and directional control associated with the forward and rearward travel of compaction roller 40.
- a collar 156 and a spring 160 slidably cooperate with a shaft 162 that receives a fastener 164 having a nut 165 and that rotationally or pivotably secures control lever 64 to the control arm 42.
- Body 144 of control lever 64 could be formed as one piece or as an assembly of two or more interconnected components.
- the illustrated body is formed of one piece and may be formed, for example, through metal casting or injection molding, although other methods of manufacture are envisioned.
- Body 144 includes a first stem 166 associated with first grip site 140 and a second stem 168 associated with second grip site 142.
- An optional third grip site or knob 170 extends in a generally upward direction between first grip site 140 and second grip site 142 of control lever 64.
- Stem 166 associated with grip site 140 is shaped to define a hand or finger window 174
- stem 168 has a generally mirror image to define a similarly shaped hand or finger window 176 associated with grip site 142.
- Grip site 140 and finger window 174 are shaped to allow the hand of an operator to cooperate therewith in either of an underhand or an overhand grip orientation.
- Second grip site 142 and finger window 176 are similarly constructed. The generally close proximity of grip site 140, 142 relative to a respective one of control handles 66, 68 allows the operator to use either hand to grab or grasp a respective grip site 140, 142 and the corresponding control handle 66, 68 with a substantially closed-handed orientation in either an overhand or underhand orientation.
- grip sites 140, 142 the close proximity of grip sites 140, 142 to a respective control handle 66, 68, and the availability of multiple control handle and control lever interaction locations allow the operator to quickly switch from one-handed to two-handed operation without unduly interfering with the other hand of the operator and/or interrupting operation of roller 40.
- control handles 66, 68 and grip sites 140, 142 allow an operator positioned generally behind button 72 to engage one or more of the first grip site 140 and control handle 66, the second grip site 142 and control handle 68, and/or control lever knob 126 to maintain a desired orientation of control lever 64 relative to control arm 42 in order to effectuate the desired forward and/or rearward operation of compaction roller 40 from a generally ergonomically comfortable position.
- buttons 72 An operator positioned rearward of button 72 could most comfortably interact in a generally overhand interaction, like gripping the handlebars of a bicycle, with either of first grip site 140 and control handle 66, second grip site 142 and control handle 68 and/or control knob 126 in which the thumbs of the user generally face toward centerline 95 of control arm 42 when engaged with the respective grip site 140, 142.
- the operator can stand beside control arm 42 while maintaining engagement with one or more of grip site 140, 142 and/or knob 126. Achieving such an orientation improves the operator's ability to view a respective lateral edge 38 ( Fig. 24 ) of compaction roller 40. It also allows the operator to orient himself in a manner that improves his leverage when turning the compaction roller 40. That is, operating the compaction roller from beside the control arm 42 rather than from directly behind it allows the operator to better use his mass rather than simply the strength of his arms and torso to effectuate the steering operation.
- button 72 includes a stem or shaft 184 that is constructed to selectively interfere with rearward operation of compaction roller 40.
- a spring 186 biases shaft 184 and an actuator 188 associated with button 72 in a generally rearward direction relative to control lever 64.
- button 72 does not interfere with manipulation of control lever 64 in either its forward or rearward directions.
- manipulation or actuation of actuator 188 in a generally forward direction relative to control lever 64 such as by contact with the operator, shifts shaft 184 in a forward longitudinal direction such that shaft 184 interferes with the operational interaction between control lever 64 and the cable 74.
- each control lever assembly 198 includes a control arm 200 that is constructed to be pivotably or fixedly connected to a manually steered compaction roller.
- Each assembly includes a control lever 202 that is movably connected to a respective control arm 200 and which defines first and second grip sites 204, 206.
- Each grip site 204, 206 also preferably defines a respective grip or finger window 208, 210.
- Each control lever 202 movably cooperates with the control arm 200 such that at least a portion of each respective grip site 204, 206 is maintained in close proximity to a respective control handle 212, 214 that is rigidly connected to a respective control arm 200 such that lateral turning forces imparted to the respective control arm 200 by an operator are passed to the control arm 200 through the control handle 212, 214 rather than the respective control lever 202.
- control lever 202 can be constructed to generally slidably cooperate with the distal end portion of control arm 200 whereas the configuration shown in Figs. 22 and 23 show alternate embodiments of control lever 202 that are pivotably connected to the respective control arm 200 in a manner similar to control lever 64 as described above.
- one or more of the control assemblies shown in Figs. can include additional control handles 216 that are not otherwise positionally associated with a respective portion of the corresponding control lever 202.
- one or more of the control lever assemblies shown in Figs. 21-23 can also include one or more control levers 202 that are supported by the respective control arm 200 at a location proximate the respective control lever assembly.
- Control levers 202 can be configured to manipulate and/or maintain operation of a throttle and/or an exciter assembly associated with a respective compaction roller to which the respective control lever assembly is engaged. Such a consideration allows an operator engaged with the respective control lever assembly to control one or both of the engine speed and/or exciter operation from a location wherein the operator can maintain a desired engagement with the respective control lever assembly associated with forward and rearward travel of the compaction roller.
- each control lever and control handle arrangement disclosed herein includes a plurality of grip sites that allow an operator to concurrently interact with and maintain the orientation of the respective control lever relative to the underlying control arm.
- the handles are rigidly connected to the corresponding control arm to accommodate the lateral forces communicated to the respective control arm, whether by pushing or pulling operations, to effectuate the desired manual steering operation.
- Each control lever and handle arrangement permits these controls in a manner that generally isolates the corresponding control lever from supporting such lateral forces.
- each control lever relative to the corresponding control arm allows the operator to maintain a desired position relative to the control arm as the operator shifts from various orientations relative to the alternate lateral sides of the control arm and positions generally more rearward thereof to achieve the desired operation and desired direction of travel of the compaction roller.
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Description
- Walk-behind compaction rollers are used to compact soil and asphalt in order to provide a firm foundation for structural building, to reduce future settlement of soil, or to compact asphalt for pathway, road, and parking lot construction. Such machines are commonly controlled by a single operator who follows behind the machine to direct the machine's travel direction and actuate its vibration control(s). Commonly, a control arm extends rearwardly from the machine and provides the mechanical advantage to allow the operator to physically manipulate the direction of travel of the machine. Such machines may have one drum (single-drum) or two (dual-drum) drums acting as compaction surface(s).
- One method to control the speed and direction (forward and/or rearward) of such machines is with a control lever that is supported at a rearward end portion of the control arm and whose position relative to the control arm actuates forward and reverse self-propelled travel of the machine. As alluded to above, such machines can be steered with a lateral force applied to the control arm to effectuate turning of the machine.
- Commonly, when the control lever is released, a spring force returns the control lever into the neutral position, and the machine ceases all travel. Such machines are also commonly provided with a button or plunger that is disposed on a rearward distal end of the control arm and which interacts with the control associated with manipulation of the control lever. Depression of the button from behind the machine can suspend travel of the rolling machine altogether or at least prevent rearward propulsion of the machine while permitting forward propulsion. Such a configuration prevents an operator from being pinned between the machine and an obstacle behind the machine.
- These machines are relatively heavy, making turning of the machine difficult. As mentioned above, the length of the control arm is set to obtain leverage sufficient to allow a single operator to turn the machine by imparting lateral directional forces of a manageable magnitude to the control arm.
- In addition to the physical interaction of the operator with the control arm and the control lever, desired operation of the compaction roller requires the operator be able to readily visually inspect the operating environment to assess the speed and direction of travel relative to, for instance, areas already compacted, obstructions such as trench walls, other personnel, equipment, grade stakes or markings, already set formwork, etc. Because the rearward orientation of the control arm and control lever places the operator in a position that is substantially directly behind the compaction roller, the compaction roller can substantially hinder the operator's ability to visually inspect the operating environment.
- Many prior manually operated compaction rollers are provided with a single control handle on the control arm that is oriented along the centerline or in-plane with the machine's centerline. One such configuration is shown in
Fig. 24 , in which a visible area is denoted bylines 30 relative to theunderlying compaction roller 32. Such a configuration requires the operator to frequently reposition his body relative to thecontrol arm 34 and thecontrol lever 36 in order to achieve a desired orientation required to visually inspect thelongitudinal edges 38 that extend along generally opposite lateral sides of theunderlying compaction roller 32. In confined work environments, cornering and edge following can result in the operator attaining positions relative to thecontrol arm 34 andcontrol lever 36 that detracts from the operator's overall ability to manipulate thecompaction roller 32 to effectuate the desired turning and travel direction control of the compaction roller. - The position and orientation of the control lever relative to the control arm of many manually steered compaction rollers are ill-suited to allow the operator to attain various operating positions relative to the control arm and the control lever to provide the desired physical interaction with both the control arm and the control lever. They also provide for only limited positional association of the operator relative to the control arm to improve the visibility associated with operation of the compaction roller while maintaining a desired interaction of the operator with the control arm and the control lever. That is, the operators of such devices must commonly shuffle their left and right hands into and out of interaction with the control lever and/or the control arm or control handles to achieve the desired visibility and operator physical positioning with respect to the compaction roller controls to achieve the desired changes to the operating status and direction of travel of the compaction roller.
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FR 2 355 122 A1 - There is a need for an improved arrangement for controlling operation of manually steered compaction roller machines from various positions relative to the control lever and control arm.
- This need is satisfied by the subject-matter of the claims.
- Various other features, aspects, embodiments and alternatives of the present invention will be made apparent from the following detailed description taken together with the accompanying drawings. It should be understood, however, that the detailed
description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration and not limitation. Many changes and modifications could be made within the scope of the present invention as defined by the claims. - Preferred exemplary embodiments of the invention are illustrated in the accompanying drawings, in which like reference numerals represent like parts throughout, and in which:
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Figure 1 is a side elevation view of a walk-behind vibratory compaction roller machine having an operator control assembly according to one embodiment of the present invention; -
Figure 2 is a side elevation view of the operator control assembly removed from the compaction roller shown inFigure 1 ; -
Figure 3 is a partially exploded isometric view of the operator control assembly shown inFigure 1 ; -
Figure 4 is an exploded isometric view of a throttle control assembly and an exciter control assembly removed from the operator control assembly shown inFigure 3 ; -
Figure 5 is a partial isometric view of a pivotable connection between the operator control assembly and the compaction roller as shown inFigure 1 ; -
Figure 6 is a front isometric view of the operator control assembly shown inFigure 2 ; -
Figure 7 is a top plan view of the operator control assembly shown inFigure 6 ; -
Figure 8 is a side elevation detail view of the operator control assembly taken along line 8-8 shown inFigure 2 ; -
Figure 9 is a rear elevation view of the operator control assembly shown inFigure 2 ; -
Figure 10 is an exploded isometric view of a control lever assembly removed from the operator control assembly shown inFigure 2 ; -
Figure 11 is a front elevation view of a control lever of the control lever assembly shown inFigure 10 ; -
Figure 12 is an assembled isometric view of the control lever assembly shown inFigure 10 ; -
Figure 13 is a side elevation view of the control lever assembly shown inFigure 12 associated with a plunger assembly of the operator control assembly shown inFigure 2 wherein the plunger assembly is in a non-actuated position; -
Figure 14 is a top plan view of the control lever and plunger assembly shown inFigure 13 ; -
Figure 15 is a front elevation view of the control lever and plunger assembly shown inFigure 13 ; -
Figure 16 is a view similar toFigure 13 with the plunger assembly in an actuated position relative to the control lever assembly; -
Figure 17 is a view similar toFigure 14 of the control lever and plunger assemblies in the relative orientations shown inFigure 16 ; -
Figure 18 is a view similar toFigure 15 of the control lever and plunger assemblies in the relative orientations shown inFigure 16 ; -
Figure 19 is a top plan view of the control lever and plunger assemblies in the relative orientations shown inFigure 16 ; -
Figure 20 is a cross section view of a pivot assembly of the control lever assembly shown inFigure 19 taken along line 20-20 shown inFigures 15 and18 ; -
Figure 21 is a view similar toFigure 6 of an operator control assembly according to another embodiment of the present invention; -
Figure 22 is a view similar toFigure 21 of an operator control assembly according to another embodiment of the present invention; -
Figure 23 is a view similar toFigure 21 of an operator control assembly according to another embodiment of the present invention; and -
Fig. 24 is a graphic representation showing a compaction roller and the alternate lateral side sight lines available to an operator associated with the operator control assembly of such devices. - The present invention discloses a number of control lever assemblies according to different embodiments of the invention that each overcome one or more of the drawbacks discussed above.
Figs. 1-20 are various views of a control arrangement of a manually steered compaction roller according to one embodiment of the invention.Figs. 21-23 show alternate embodiments of the invention that achieve the same benefits as disclosed with respect to the following description ofFigs. 1-20 . The various embodiments are encompassed by the scope of the appended claims. -
Fig. 1 shows acompaction roller 40 having acontrol arm 42 that may be pivotably and/or removably connected to aframe 44 of thecompaction roller 40.Compaction roller 40 includes anengine 46 and ahydraulic system 48 associated therewith.Engine 46 can be provided in various configurations such as electric start, pull start, and crank start configurations. When provided in a crank start configuration,compaction roller 40 is provided with a crank handle 47 (Fig. 2 ,Fig. 5 ) configured to be removably associated with a crankshaft associated withengine 46 for initiating the first combustion compression cycle and thereby manual starting ofengine 46. Crank handle 47 removably cooperates withcontrol arm 42 such that the orientation shown inFig. 2 is associated with a storage position of crank handle 47 relative tocompaction rollers 40 equipped with a crank start feature. Understandably, crankhandle 47 need not be provided with compaction rollers having electric start and/or recoil start engine configurations. - A
first drum 50 and asecond drum 52 ofcompaction roller 40 are supported byframe 44 and constructed to compact theground surface 54 associated with movement ofcompaction roller 40. One or both ofdrums compaction roller 40. For example, an eccentric weight may be located on a lower portion offrame 44 between the twodrums 50 to vibrate bothdrums - A
pivot assembly 56 pivotably connectscontrol arm 42 to frame 44 such thatcontrol arm 42 can be pivoted about a horizontal axis between an in-use orientation, as shown inFig. 1 , in which thecontrol arm 42 extends generally rearward fromframe 44 and a storage or transport orientation, indicated byarrow 58, for reducing the footprint associated withcompaction roller 40 when not in use. It is further appreciated thatcontrol arm 42 can be secured in one or both of the in-use and storage or transport orientations. In a preferred embodiment,control arm 42 can be secured in the storage orientation but freely movable from the in-use orientation toward the storage orientation. It is appreciated that such configurations can include one or more catch arrangements that can be manipulated by the user to change the orientation ofcontrol arm 42 relative to frame 44 ofcompaction roller 40. - Referring to
Figs. 1 and2 , a control or anoperator area 60 ofcompaction roller 40 is defined in the vicinity of arearward portion 62 ofcontrol arm 42 and offsets an operator in a rearward longitudinal length or distance, indicated bydimension 63, relative toroller 40. Although an exemplary dimension ordistance 63 is shown in the drawings, it is appreciated that the length ofcontrol arm 42 can be selected to improve the mechanical advantage associated with manual turning during operation ofcompaction roller 40. It is appreciated that a greater distance betweencompaction roller 40 andoperator area 60 will increase the mechanical advantage associated withcontrol arm 42, whereas shorter distances will require the operator to impart greater forces to controlarm 42 to yield comparable turning performance than associated with longer control arms. It is further appreciated thatcontrol arm 42 can be pivotably connected tocompaction roller 40 to be settable at various elevations to accommodate operators of different heights and/or provide different positions of theoperator area 60 to suit different operator preferences - such as the control area being positioned at a hip height or rib height as different operators may prefer or different operational situations may require. - Referring to
Figs. 1-9 ,operator area 60 includes a control lever assembly orcontrol lever 64; one or more control handles 66, 68; and can include one or more of an exciter control orexciter control assembly 70; a throttle control orthrottle control assembly 71, and a plunger orbutton 72. Referring toFigs. 1 ,2 ,6 and7 , alternate ends of control handles 66, 68 are rigidly connected to controlarm 42 whereascontrol lever 64 is pivotably or otherwise movably connected thereto such thatcontrol lever 64 is movable relative to bothcontrol arm 42 and control handles 66, 68. As disclosed further below, control handles 66, 68 provide for a rigid interaction of the user withcontrol arm 42 during operation ofcompaction roller 40. - As shown in
Fig. 2 ,control lever 64 cooperates with a push-pull cable 74 associated with generating forward and rearward linear operation ofcompaction roller 40 as a function of the orientation ofcontrol lever 64 relative to controlarm 42. Preferably,control lever 64 is biased to a neutral position associated with suspending propulsion ofcompaction roller 40 in either the forward or the rearward directions. It is appreciated that push-pull cable 74, or any other suitable linkage, can be provided in any of a number of suitable configurations for communicating instructions associated with the orientation ofcontrol lever 64 to theunderlying compaction roller 40. It is further appreciated that push-pull cable 74 and/or thecontrol lever 64 can be configured to manipulate any of a number of operational systems, such as a hydraulic system or an electrical system associated with generating the desired forward, rearward, and neutral or non-moving operation ofcompaction roller 40. It is further appreciated thatcontrol lever 64 and/or the push-pull cable 74 can be configured to interact with various systems, such as relays, valves, etc., associated with generating the desired manipulation of the underlying operation ofcompaction roller 40. - In a preferred embodiment, one or more of
exciter control 70 and engine controls, such as athrottle control 71, and/orbutton 72 are positioned oncontrol arm 42proximate operator area 60 such that a user or operator engaged withcontrol lever 64 can interact with and control operation of the engine and/or the exciter associated with operation ofcompaction roller 40. It is appreciated that theexciter control 70 andthrottle control 71 can be configured to maintain a desired operation of the respective exciter and/or throttle associated with the underlyingengine 46 without sustained operator interaction with therespective exciter control 70 and/orthrottle control 71. It is further appreciated that, likecontrol lever 64,exciter control 70 and/orthrottle control 71 be provided with a push-pull cable, elongated connector, gears, transmission, fluid system, relays, valves, etc. and/or an electrical system to effectuate communication of the exciter operation instructions and/or discrete throttle control instructions fromoperator area 60 to the respective underlying exciter and throttle systems ofroller 40. In a preferred embodiment,exciter control 70 is positionednearer push button 72 thanthrottle control 71 as many users prefer to more commonly adjust operation of the exciter assembly than manipulate the throttle position during operation ofcompaction roller 40. Preferably, each ofexciter control 70 andthrottle control 71 are configured to be manipulated by a single hand of a user such that the desired orientation ofcontrol lever 64 can be maintained even during adjustment ofexciter control 70 orthrottle control 71. - From the orientation shown in
Fig. 2 , it should be understood that rearward or clockwise movement ofcontrol lever 64 from a neutral position, toward adistal end 82 ofcontrol arm 42, as indicated byarrow 78, effectuates rearward travel ofcompaction roller 40. Conversely, forward or counterclockwise movement ofcontrol lever 64, as indicated byarrow 80, effectuates forward operation ofcompaction roller 40. In the illustrated embodiment,control lever 64 rotates about apivot axis 86, thereby manipulating the orientation ofcable 74 to achieve the desired change in the operating condition ofcompaction roller 40. Thecontrol lever 64 is directly or indirectly biased to its neutral position such as, for example, by a spring acting on a pump control lever (not shown) to which thecable 74 is connected so that forward/rearward operation ofcompaction roller 40 is suspended whenever the operator releasescontrol lever 64. The push-pull cable 74 preferably is coupled to the hydraulic pump or other propulsion system of thecompaction roller 40 such that thecompaction roller 40 is propelled at a speed that is generally proportional to the extent of movement of thecontrol lever 64 relative to its the neutral position. - Referring to
Figs. 3 and4 ,exciter control 70 includes astem 90 having aball 92 attached to an end thereof. A flange 94 is secured to controlarm 42 and is constructed to support exciter stem 90 relative thereto. Apivot assembly 96 pivotably connectsexciter stem 90 relative to flange 94. A push/pull cable 98 is connected toexciter stem 90 offset from the axis associated withpivot assembly 96 such thatcable 98 communicates exciter operation instructions fromoperator area 60 to the exciter associated withcompaction roller 40.Throttle control 71 includes a throttle control stem 100 having aball 102 connected at an end thereof. Apivot assembly 104 pivotably connects throttle control stem 100 to flange 94. A push/pull cable 106 is connected to throttle control stem 100 at a location offset from the axis of rotation associated withpivot assembly 104 such that movement of throttle control stem 100 relative to controlarm 42 manipulates the throttle condition and thereby the engine speed associated with operation ofcompaction roller 40. - Referring to
Fig. 3 , exciter control stem 90 and throttle control stem 100 are constructed to pass through one or more openings 108, 110 defined bycontrol arm 42. Afaceplate 112 cooperates withcontrol arm 42, exciter control stem 90, and throttle control stem 100 so as to generally overlie openings 108, 110 defined bycontrol arm 42.Faceplate 112 includes a firstelongated opening 114 that slidably cooperates with exciter control stem 90 and a secondelongated opening 116 that slidably cooperates withthrottle control stem 100. Opening 116 offaceplate 112 can include one ormore catches faceplate 112. It should be appreciated that when throttle control stem 100 is associated with arespective catch compaction roller 40. It is further appreciated that opening 114 associated withexciter control 70 could include similar such catches.Balls faceplate 112 can be secured to controlarm 42 in close slidable cooperation with exciter control stem 90 andthrottle control stem 100. - Referring to
Figs. 3 and5 ,control arm 42 includes an opening 124 that slidably cooperates with a crank handle stem 125 associated with crank handle 47. Crank handle 47 includes ahandle 128 that snap fittingly cooperates with acatch 130 such that crankhandle 47 can be securely supported bycontrol arm 42 when not in use. As shown inFig. 5 , ashock arrangement 132 that includes one ormore bushings frame 44 andcontrol arm 42. Understandably,bushings frame 44 ofcompaction roller 40 orcontrol arm 42 and configured to engage the other offrame 44 orcontrol arm 42 whencontrol arm 42 is oriented in the in-use position.Bushings compaction roller 40 and/or the exciter associated therewith alongcontrol arm 42 toward the user associated withoperator area 60. - Referring to
Figs. 3 and6-9 ,control lever 64 includes a first grab orgrip site 140 and a second grab orsecond grip site 142 that are offset in opposite lateral directions, indicated byarrow 143, relative to a longitudinal axis or center-line, indicated byarrow 145, ofcontrol arm 42. Control handle 66 and control handle 68 have generally arcuate shapes that allowgrip sites control lever 64 aboutpivot axis 86. Preferably, grip handles 66, 68 are curved relative to both the vertical and horizontal planes that correlate to rotation ofcontrol lever 64. The larger curvature ofhandles handles control arm 42. It is appreciated that other ranges of radii can be provided as a function of the lateral thickness ofcontrol arm 42, the range of motion ofcontrol lever 64, and/or to provide desired ergonomic interaction withhandles distal end 82 ofcontrol arm 42. - Each such configuration allows an operator to grasp a respective portion of the respective control handles 66, 68 and/or a
respective grip site control lever 64 and relative to the opposite lateral sides ofcontrol arm 42. As explained further below, such a construction allows the operator to position himself at locations further outboard of thelongitudinal axis 145 ofcontrol arm 42 than would otherwise be possible while maintaining secure interaction withcontrol lever 64 and at least one of control handles 66, 68.Control lever 64 and control handles 66, 68 thus allow an operator to securely grasp at least one of control handles 66, 68 ofcompaction roller 40, even during manipulation ofcontrol lever 64 and/or interaction withexciter control 70 and/orthrottle control 71 to maintain a desired operation and direction of travel ofroller 40 even when located at various positions relative to controlarm 42. - Control handles 66, 68 are also rigidly constructed to tolerate the lateral loading of
control arm 42 during turning operations and are maintained in close proximity to gripsites bias control arm 42 in lateral directions without imparting the lateral loading forces to controllever 64. - Referring to
Figs. 3 and6-12 ,control lever 64 includes abody 144 having afirst end 146 that defines anopening 148 associated with supportingcontrol lever 64 aboutpivot axis 86 relative to controlarm 42.First end 146 includes aboss 150 that is shaped to cooperate with apin 152 oriented to engage atang 154 that is positionally associated withbody 144.Tang 154 is operationally connected tocable 74 to effectuate generally longitudinal displacement, indicated byarrow 113, of the cable to effect speed and directional control associated with the forward and rearward travel ofcompaction roller 40. Acollar 156 and aspring 160 slidably cooperate with ashaft 162 that receives afastener 164 having anut 165 and that rotationally or pivotably securescontrol lever 64 to thecontrol arm 42. -
Body 144 ofcontrol lever 64 could be formed as one piece or as an assembly of two or more interconnected components. The illustrated body is formed of one piece and may be formed, for example, through metal casting or injection molding, although other methods of manufacture are envisioned.Body 144 includes afirst stem 166 associated withfirst grip site 140 and asecond stem 168 associated withsecond grip site 142. An optional third grip site orknob 170 extends in a generally upward direction betweenfirst grip site 140 andsecond grip site 142 ofcontrol lever 64.Stem 166 associated withgrip site 140 is shaped to define a hand orfinger window 174, and stem 168 has a generally mirror image to define a similarly shaped hand orfinger window 176 associated withgrip site 142.Grip site 140 andfinger window 174 are shaped to allow the hand of an operator to cooperate therewith in either of an underhand or an overhand grip orientation.Second grip site 142 andfinger window 176 are similarly constructed. The generally close proximity ofgrip site respective grip site - It is appreciated that the orientation of the user's hand relative to the respective grip site will vary during operation of
roller 40 as the operator moves from left-hand to right-hand lateral side positions relative to controlarm 42 and/or to a more rearward orientation relative tobutton 72 during operation ofcompaction roller 40. The generally mirror construction ofgrip sites grip sites roller 40. - Referring back to
Figs. 2 and6 , the construction and position of control handles 66, 68 andgrip sites button 72 to engage one or more of thefirst grip site 140 and control handle 66, thesecond grip site 142 and control handle 68, and/or controllever knob 126 to maintain a desired orientation ofcontrol lever 64 relative to controlarm 42 in order to effectuate the desired forward and/or rearward operation ofcompaction roller 40 from a generally ergonomically comfortable position. An operator positioned rearward ofbutton 72 could most comfortably interact in a generally overhand interaction, like gripping the handlebars of a bicycle, with either offirst grip site 140 and control handle 66,second grip site 142 and control handle 68 and/orcontrol knob 126 in which the thumbs of the user generally face toward centerline 95 ofcontrol arm 42 when engaged with therespective grip site - For more aggressive turning operations that cannot be easily effectuated while standing directly behind the
control arm 42, the operator can stand besidecontrol arm 42 while maintaining engagement with one or more ofgrip site knob 126. Achieving such an orientation improves the operator's ability to view a respective lateral edge 38 (Fig. 24 ) ofcompaction roller 40. It also allows the operator to orient himself in a manner that improves his leverage when turning thecompaction roller 40. That is, operating the compaction roller from beside thecontrol arm 42 rather than from directly behind it allows the operator to better use his mass rather than simply the strength of his arms and torso to effectuate the steering operation. - Referring to
Figs. 3 and13-20 ,button 72 includes a stem orshaft 184 that is constructed to selectively interfere with rearward operation ofcompaction roller 40. Referring toFigs. 13-15 , aspring 186biases shaft 184 and anactuator 188 associated withbutton 72 in a generally rearward direction relative to controllever 64. When it is not actuated,button 72 does not interfere with manipulation ofcontrol lever 64 in either its forward or rearward directions. Referring toFigs. 3 and16-18 , manipulation or actuation ofactuator 188 in a generally forward direction relative to controllever 64, such as by contact with the operator, shiftsshaft 184 in a forward longitudinal direction such thatshaft 184 interferes with the operational interaction betweencontrol lever 64 and thecable 74. Interference ofshaft 184 withcontrol lever 64 creates a gap 192 (Fig. 18 ) betweencontrol lever 64 andtang 154.Gap 192 decouples rearward movement ofcontrol lever 64 from manipulation oftang 154 but maintains an operative engagement betweenpin 152 andtang 154 such that forward motion ofcontrol lever 64 aboutpivot axis 86 achieves forward operation ofcompaction roller 40. Said another way, actuation ofbutton 72 suspends further rearward propulsion ofcompaction roller 40 but maintains the ability ofcontrol lever 64 to achieve forward propulsion ofcompaction roller 40. A further description of the construction and operation ofbutton 72 and the interference of the same with respect to manipulation ofcontrol lever 64 can be found inU.S. Patent No. 6,382,383 , the entire disclosure of which is incorporated herein. -
Figs. 21-23 show various control lever assemblies for manually steerable compaction rollers according to alternate embodiments the present invention. Referring generally thereto, eachcontrol lever assembly 198 includes acontrol arm 200 that is constructed to be pivotably or fixedly connected to a manually steered compaction roller. Each assembly includes acontrol lever 202 that is movably connected to arespective control arm 200 and which defines first andsecond grip sites grip site finger window control lever 202 movably cooperates with thecontrol arm 200 such that at least a portion of eachrespective grip site respective control arm 200 such that lateral turning forces imparted to therespective control arm 200 by an operator are passed to thecontrol arm 200 through the control handle 212, 214 rather than therespective control lever 202. - From the embodiment shown in
Fig. 21 , it should be appreciated thatcontrol lever 202 can be constructed to generally slidably cooperate with the distal end portion ofcontrol arm 200 whereas the configuration shown inFigs. 22 and 23 show alternate embodiments ofcontrol lever 202 that are pivotably connected to therespective control arm 200 in a manner similar to controllever 64 as described above. Referring back toFig. 21 , it should further be appreciated that one or more of the control assemblies shown in Figs. can include additional control handles 216 that are not otherwise positionally associated with a respective portion of thecorresponding control lever 202. - It is further appreciated that one or more of the control lever assemblies shown in
Figs. 21-23 can also include one ormore control levers 202 that are supported by therespective control arm 200 at a location proximate the respective control lever assembly. Control levers 202 can be configured to manipulate and/or maintain operation of a throttle and/or an exciter assembly associated with a respective compaction roller to which the respective control lever assembly is engaged. Such a consideration allows an operator engaged with the respective control lever assembly to control one or both of the engine speed and/or exciter operation from a location wherein the operator can maintain a desired engagement with the respective control lever assembly associated with forward and rearward travel of the compaction roller. - Regardless of the method of mobility, whether slidable, rotational, or pivotable, each control lever and control handle arrangement disclosed herein includes a plurality of grip sites that allow an operator to concurrently interact with and maintain the orientation of the respective control lever relative to the underlying control arm. The handles are rigidly connected to the corresponding control arm to accommodate the lateral forces communicated to the respective control arm, whether by pushing or pulling operations, to effectuate the desired manual steering operation. Each control lever and handle arrangement permits these controls in a manner that generally isolates the corresponding control lever from supporting such lateral forces. The close proximity of each control lever relative to the corresponding control arm allows the operator to maintain a desired position relative to the control arm as the operator shifts from various orientations relative to the alternate lateral sides of the control arm and positions generally more rearward thereof to achieve the desired operation and desired direction of travel of the compaction roller.
Claims (20)
- A control assembly for a walk-behind compaction roller (40), the control assembly comprising:a first control handle (66) and a second control handle (68) that are each rigidly connected to a control arm (42) configured to extend in a rearward direction from a compaction roller (40);a control lever assembly (64) connected to the control arm (42) and movable relative thereto to manipulate a travel speed of the compaction roller (40); anda first grip site and a second grip site defined by the control lever assembly (64), the first grip site (140) and the second grip site (142) being laterally offset from one another and shaped to slidably cooperate with a respective one of the first control handle (66) and the second control handle (68) so that an operator can simultaneously grip either 1) the first grip site (140) and the first control handle (66) or 2) the second grip site (140) and the second control handle (68).
- The control assembly of claim 1, wherein the control lever assembly (64) comprises:a body (144) having a first end connected to the control arm (42) of the compaction roller (40); andthe first grip site (140) and the second grip site (142) formed by the body (144) and offset from the first end of the body (144), the first grip site (140) and the second grip site (142) being laterally offset from a longitudinal center-line axis of the control arm (42) and spaced from one another so that one of the first grip site (140) and the second grip site (142) is beyond reach of a hand engaged with the other of the first grip site (140) and the second grip site (142).
- The control assembly (64) of claim 2,wherein the control lever assembly further comprises a third grip site (170) defined by the body (144) and positioned laterally between the first grip site (140) and the second grip site (142).
- The control assembly of claim 2, wherein the first and second control handles (66, 68) are disposed outboard of a respective one of the first grip site (140) and the second grip (142) site so that a user can concurrently grip one of the first and second control handles (66, 68) and the respective one of the first grip site (140) and the second grip site (142).
- The control assembly of claim 2, wherein the control lever assembly (64) further comprises a tang (154) disposed proximate the first end of the body (144) and constructed to engage a push-pull cable (74).
- The control assembly (64) of claim 2 wherein the body (144) is pivotably connected to the control arm (42).
- The control assembly of claim 3 wherein the third grip site (170) is a control knob.
- The control assembly of claim 1 wherein the control lever assembly (64) is pivotably connected to the control arm (42) to define an arc of motion of the first grip site (140) and the second grip site (140).
- The control assembly of claim 8 wherein the first control handle (66) and the second control handle (68) each have an arcuate shape that is similar to an arc of motion of the first grip site (140) and the second grip site (142).
- The control lever assembly of claim 8 wherein the arc of motion is oriented in a generally vertical plane.
- The control lever assembly of claim 1 wherein the control lever assembly (64) is connected to a push-pull cable (74) that controls a travel directional of the compaction roller (40).
- The control lever assembly of claim 1 further comprising a button (72) at a distal end of the control arm (42) and connected to the control lever assembly (64), the button (72) being operable to disable rearward travel of the compaction roller (40) when the button (72) is actuated.
- A method of forming a control arrangement for a walk behind compaction roller (40), the method comprising:providing a control assembly according to claim 1 that defines the first grip site (140) and the second grip site (142) that are laterally offset from another; therebyconnecting the control lever assembly (64) to the control arm (42) that is constructed to extend rearward from a compaction roller (40); andconnecting the first control handle (66) and the second control handle (68) to the control arm (42) so that the first control handle (66) is proximate the first grip site (140) and the second control handle (68) is proximate with the second grip site (142) and the first and second control handles (66, 68) are oriented on opposite lateral sides of the control arm (42).
- The method of claim 13 further comprising providing a grip knob (170) of the control lever assembly (64) disposed between the first grip site (140) and the second grip site (142).
- The method of claim 13 further comprising connecting the control lever assembly (64) to a push-pull cable (74) associated with the control arm (42).
- The method of claim 13 wherein connecting the control lever assembly (64) to the control arm (42) further comprises connecting the control lever assembly (64) to a pivot pin so that the control lever assembly (64) is pivotable relative to the control arm (42).
- The method of claim 16 further comprising contouring the first control handle (66) and the second control handle (68) to have a curvilinear shaped portion that correlates to an arc defined by motion of the respective first and second grip sites (140, 142) of the control lever assembly (64) relative to the control arm (42).
- A method of controlling a walk behind compaction roller (40), the compaction roller (40) having at least one rotating drum (50, 52), a frame (44) supported on the drum (50, 52), and a control arm (42) extending rearwardly from the frame (44), the method comprising:moving a control assembly (64) according to claim 1 that defines the first grip site (140) and the second grip site (142) that are laterally offset from opposite sides of a longitudinal centerline of the control arm (42) to control forward and rearward travel of the compaction roller (40);concurrently grasping at least one of 1) the first grip site (140) and the first control handle (66) and 2) the second grip site (142) and the second control handle (68) to maintain a desired orientation of the control lever assembly (64) relative to the control arm (42); andimparting a lateral force to the control arm (42) via the grasped at least one of the first control handle (66) and the second control handle (68) to turn the compaction roller (40).
- The method of claim 18 further comprising grasping a knob (170) of the control lever assembly (64) to maintain an orientation of the control lever assembly (64) relative to the control arm (42).
- The method of claim 18 further comprising actuating a plunger (72) to disable rearward travel of the compaction roller (40).
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP14187779.5A EP3006624B1 (en) | 2014-10-06 | 2014-10-06 | Control lever assembly for walk-behind compaction roller |
ES14187779T ES2744632T3 (en) | 2014-10-06 | 2014-10-06 | Control Lever Assembly for Walk-behind Compaction Roller |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP14187779.5A EP3006624B1 (en) | 2014-10-06 | 2014-10-06 | Control lever assembly for walk-behind compaction roller |
Publications (2)
Publication Number | Publication Date |
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EP3006624A1 EP3006624A1 (en) | 2016-04-13 |
EP3006624B1 true EP3006624B1 (en) | 2019-07-03 |
Family
ID=51660363
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP14187779.5A Not-in-force EP3006624B1 (en) | 2014-10-06 | 2014-10-06 | Control lever assembly for walk-behind compaction roller |
Country Status (2)
Country | Link |
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EP (1) | EP3006624B1 (en) |
ES (1) | ES2744632T3 (en) |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2355122A1 (en) * | 1976-06-16 | 1978-01-13 | Entretien Routes Const | Deadman's handle for pedestrian operated self-propelled roller - has recoil sprung control lever on tiller handlebar of section fitting against bar |
DE59305486D1 (en) * | 1992-10-14 | 1997-03-27 | Meflex Telecontrol Gmbh & Co | Control device for a hand-held machine with traction drive |
DE19802007C1 (en) * | 1998-01-20 | 1999-11-11 | Wacker Werke Kg | Safety arrangement for the operating elements of a hand-held soil compaction roller |
-
2014
- 2014-10-06 EP EP14187779.5A patent/EP3006624B1/en not_active Not-in-force
- 2014-10-06 ES ES14187779T patent/ES2744632T3/en active Active
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ES2744632T3 (en) | 2020-02-25 |
EP3006624A1 (en) | 2016-04-13 |
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