EP0909856A2 - Vehicle - Google Patents

Abstract

A vehicle (10) in the manner of a skid-steer loader has a vertically pivotable driver's cell (22), from which control linkage (46) and actuating lever (16) are provided. The actuating levers (16) are pivotably mounted and provided with a lever (56) that they reach an inoperative position when the driver's cell (22) is raised to an inoperative position. In this way, access to vehicle compartments (30) is created which are required for maintenance purposes. <IMAGE>

Description

The invention relates to a vehicle with a vehicle frame, a driver's cell and a control linkage, the Driver's cell in an operating position and in a non-operating position can be brought and in the non-operating position Access to vehicle compartments below the driver's compartment is made possible.

US-A-5,518,358 discloses a skid steer loader, one so-called skid-steer loader, with one loading arm and one Driver's cell, which also serves as a rollover protection. Within the driver's cell is a driver's seat and various Actuators located in the driver's grip area are located. Due to the special design of this vehicle type are the main vehicle components below the Driving cell arranged, which is why this between the operating and an inoperative position is pivotable vertically.

The problem underlying the invention is seen in that rods, Bowden cables and the like, which for the Operation of the vehicle is required as long are dimensioned so that the driver's compartment can be pivoted if this should be brought into the non-operational position.

This problem is solved according to the invention by the teaching of the patent claim 1 solved, the in the further claims Features that further develop features in an advantageous manner are listed.

In this way, no long connections are required between the control linkage and the one it operates Components because the control linkage when moving the driver's cell is not operated in the sense of a tax movement. In addition the control linkage comes into a position in which it is the way cleared for access to vehicle spaces below the Driver's compartment and in which z. B. hydraulic components or the like are housed.

Damage to the control linkage is avoided if that Control linkage due to an automatism resulting from the Derives movement of the driver's cell, is adjusted.

An operating lever in an upright position can easily be gripped by an operator. On the other hand, needs there is no additional charge to turn him into one To let down position go down if one makes use of gravity.

The driver's cell and the operating lever give space between them as freely as possible when they are apart move, d. H. the operating lever down and the Driver cell up.

If the operating lever on a lever by a first Pivot axis and the lever about a second pivot axis on the Frame is pivotally attached to each other radially are offset, and when a motion control link to Actuate the vehicle near the second pivot axis or close this is aligned with the lever, then can the operating lever from a first to a second position and vice versa without moving which affects the function of the vehicle.

The operating lever is safely in its operating position brought and kept there if this is due to the weight of the Driver's cell takes place, since this is not insignificant.

The arrangement of the center of gravity of the operating lever in such a way that the operating lever due to its weight in its Falls out of use, makes use of own Controls unnecessary.

The training of the vehicle as a skid steer loader, also skid steer loader called, and the use of the operating lever to control the drive is particularly advantageous because it is an application under extremely cramped conditions Conditions.

The attachment of a damper, i.e. a compliant link, on the lever has the advantage that it causes dimensional deviations can be balanced and when the the components involved are avoided.

Fig. 1

ein erfindungsgemäßes Fahrzeug mit einer Fahrerzelle in ihrer Betriebsstellung in einer Ansicht von vorne links,

Fig. 2

das erfindungsgemäße Fahrzeug aus Figur 1 in einer Ansicht von hinten links,

Fig. 3

das erfindungsgemäße Fahrzeug aus Figur 1 mit einer Fahrerzelle in ihrer Außerbetriebsstellung in einer Ansicht von vorne links,

Fig. 4

das erfindungsgemäße Fahrzeug aus Figur 3 in einer Seitenansicht von links,

Fig. 5

ein Steuergestänge des erfindungsgemäßen Fahrzeugs in einer Betriebsstellung und in perspektivischer Darstellung und

Fig. 6

das Steuergestänge aus Figur 5 in einer Außerbetriebsstellung und in perspektivischer Darstellung.

In the drawing, an embodiment of the invention described in more detail below is shown. It shows:

Fig. 1

a vehicle according to the invention with a driver's cell in its operating position in a view from the front left,

Fig. 2

1 in a view from the rear left,

Fig. 3

the vehicle of Figure 1 with a driver's cell in its inoperative position in a view from the front left,

Fig. 4

the vehicle of Figure 3 in a side view from the left,

Fig. 5

a control linkage of the vehicle according to the invention in an operating position and in a perspective view and

Fig. 6

the control linkage from Figure 5 in an inoperative position and in perspective.

A preferred embodiment is shown in FIGS. 1 to 6 presented the invention. Figures 1, 2, 3 and 4 show a vehicle 10 commonly referred to as a skid-steer loader, d. H. a small loader or skid steer loader that goes through Braking and slipping of the individual wheels is steered and on which the present invention is used. The vehicle 10 includes an operating platform 12 that has a driver seat 14 contains, and operating lever 16 by a seated Operator can be operated to the Speed of the right and left drive wheels 18 and 20 to be able to control. A trained as rollover protection Driver's compartment 22 is provided around the operating platform 12 essentially enclose. The driver's compartment 22 helps protecting the operator when the vehicle 10 would fall on his side or upside down. The in Figure 1 Driver cell 22 shown assumes its operating position in which the operating platform 12 essentially of the Driver's compartment 22 is enclosed. The driver's compartment 22 is one Pivot axis 24 of the driver's compartment 22 can be pivoted above and behind that sitting in the vehicle 10 Operator is located. The pivot axis 24 is in one Pair of posts set 26, extending from one Vehicle frame 28 from essentially behind the seated Extend operator upwards. The driver's compartment 22 can about the pivot axis 24 in the essentially in the third and 4 shown position can be pivoted upwards. If the driver's cell 22 in its swung-up second position 3 and 4 are shown Vehicle compartments 30 below the driver's seat 14 and one Bottom area 32 essentially released to the Operator access to vehicle compartments 30 for To release maintenance and care purposes. The driver's seat 14 and the bottom area 32 of the operating platform 12 form one Part of the driver's compartment 22 which is up in its second position pivots. If the driver's seat 14 and the floor area 32 after are pivoted above, the vehicle compartments 30 in essential for care and maintenance of Vehicle components exposed. The vehicle compartments 30 are fixed between the vehicle frame 28 of the vehicle 10 and housed vehicle components, such as a hydraulic system that the right and left drive wheels 18 and 20 of the Vehicle 10 drives. The pivoting ability of the driver's compartment 22 to access components of vehicle 10 is included in the European patent application Priority US 954,290 of October 17, 1997 and their Revelation is hereby incorporated into more detail described.

The vehicle 10 shown in FIG. 1 contains a loading shovel 34 attached to the vehicle by means of a loading arm assembly 36 10 is connected. A main arm 38 extends between the loading shovel 34 and a pair of upper links 40. The upper link 40 extend between the rear Area of the main arm 38 and the upper area of the posts 26. The seated operator adjusts actuators, around the loading bucket 34 between its various Operating positions to move. One of secondary hand controls 70 can laterally with respect to the operating lever 16 are moved to the movement of the loading bucket 34 and the To control the loading arm assembly 36. If the loading bucket 34 the main arm 38 moves vertically while it essentially maintains its horizontal orientation. When the main arm 38 moves vertically, they pivot upper link 40 around their connections to the post 26. This Kind of a loading arm linkage is generally considered a Vertical lifting system referred to as the main arm 38 in is lifted substantially vertically around the loading bucket 34 to raise. The upper links 40 and a couple of lower links 42, which is between the vehicle 10 and an area of the Main arm 38 extend, guide the main arm 38 vertically, while essentially changing the horizontal orientation of the Main arm 38 received.

To substantially stiffen the loading arm assembly 36, a cross member 44 is provided, which is between the right and left upper link 40 and between the posts 26 extends. The cross part 44 is used for reinforcement and Stiffening of the loading arm assembly 36 when the loading shovel 34 raised between their different positions and is lowered. The cross member 44 according to the present Embodiment is arranged and located relatively high therefore essentially above a line of sight of the Operator to the rear. The high cross member 44 therefore supports the field of vision to the rear area of the vehicle 10. The high pivot axis 24 of the Driver's compartment 22 allows the latter to move upwards and backwards pivot without being removed from the high cross member 44 would be hindered.

The driver's cell 22 pivots about a relatively high pivot axis 24, which causes the driver's compartment 22 to substantially follow swings in front when it faces up Pivotal movement from that shown in Figures 1 and 2 Position begins. The present invention allows the Actuating lever 16 from that shown in Figures 1 and 4 Operating position to pivot in non-operating positions, such as they are shown in Figures 3 and 6. If the Actuating lever 16 are in their inoperative position, create space for the driver's compartment 22, so that it can move forward front and top within their initial range of motion can pivot.

A control linkage 46 includes a pair of right and left Operating lever 16 which are independent of each other Operator can be swung forward and backward can to the speed of each right and left drive wheels 18 and 20 control. The Secondary hand controls 70 are pivotable to the top Areas of the actuating lever 16 attached. The operator grips the secondary hand controls 70 during the Operation of the vehicle 10. By the operator Seizes secondary hand controls 70, it becomes the Adjust the operating lever 16 to the front and back in order to To drive and steer vehicle 10. The right and the left drive wheels 18 and 20 are concerned by Hydraulic systems powered by the operator adjusted via the right and left control linkages 46 become. A pair of hydraulic system input shafts 48 pivots to the speed and direction of the to control respective drive wheels 18 and 20. Arms 50 are on the input shafts 48 of the hydraulic system connected. Motion transmission links 52 extend from the arms 50 forward and are functional with waves 54 corresponding actuating levers 16 connected. The Operating levers 16 are pivotally connected to levers 56, their position during the operation of the vehicle 10 fixed remains. The actuating lever 16 can of the Operator forward and about a first pivot axis 58 be pivoted at the rear, so also the motion control handlebars 52 move back and forth, which in turn arms 50 and the hydraulic system input shafts 48 in their different positions to change the speed of the respective drive wheels 18 and 20 pivots. The levers 56 are connected to holder 60 pivotable to a Perform pivoting movement about a second pivot axis 62 can, if the operating lever 16 between operating and Swing out of service positions to the driver's cell 22 allow between their raised and lowered positions to pan. Dampers 78 form part of the levers 56 and touch the floor area 32 of the driver's compartment 22 to the levers 56 and the operating lever 16 between the operating and To pivot out of service positions. The holder 60 are z. B. with screws to the vehicle frame 28 of the vehicle 10 connected. A flexible sheath 74 surrounds everyone Actuating lever 16 and is sufficiently flexible to the Actuating lever 16 to allow it to be in different front and rear operating positions pivots, and them it also allows the control linkage 46 to be between its Swing operational and its non-operational position.

Furthermore, the operation and function of the present invention described in more detail. If the driver's cell 22 is in its first operating position, as shown in Figures 1 and 2, strikes lower corner region 64 of the base region 32 to the lever 56 and pushes it down by means of dampers 78, like this best seen in Figure 6. Each lever 56 is there from the bottom of the bottom portion 32 firmly in its Position held when the driver's compartment 22 is in its first operating position. The operating lever 16, the is connected to the lever 56, is thereby in its Operating position maintained, as shown in Figure 5. In this position, the operating lever 16 of a Operator can be moved back and forth to the Motion transmission link 52 and arms 50 to switch which serves the respective input shafts 48 of the Hydraulic system to pivot and the speed of the respective drive wheels 18, 20 to adjust. If the Operator the operating lever 16 back and forth pushes, pivot them with respect to the levers 56 around the first pivot axis 58.

The driver's cell 22 can be interrupted in FIG Lines shown position in their solid in Figure 4 Line shown position can be pivoted upwards. If the Driver cell 22 about the pivot axis 24, which is in the upper Area of the post 26 is located, pivots up, pivots the bottom of the bottom portion 32 with her up, which the Damper 78 and the lever 56 clearance to pivot around the provides second pivot axis 62. The focus of the Actuation lever 16 and the secondary hand controls 70 is located such that gravity pulls the operating lever 16 in pulls the decommissioning position down when the Driver compartment 22 is pivoted upwards. In other words, gravity urges the operating levers 16 and levers 56 to a forward swiveling movement around the second Swivel axis 62 when the driver's cell 22 from the Operator is pivoted upwards. If the Driver's compartment 22 in its second position and the control linkage 46 is pivoted into its non-operational position is the Operator free space for access to the Vehicle compartments 30 within the vehicle frame 28 of the Given vehicle 10. The driver seat 14 and the floor area 32 the operating platform 12 pivot with the driver's cell 22 up and thus lay the content of the vehicle compartments 30 for Care and maintenance free.

When the operating levers 16 are in their inoperative position pivot, the vehicle 10 will neither forward nor backward driven. A pivoting movement of the operating lever 16 in the inoperative position generally does not cause the Swing input shafts 48 of the hydraulic system or the Drive wheels 18 and 20 are driven. The second Pivot axis 62 around which the lever 56 and the actuating lever 16 pivot when the operating lever 16 in their Swing out of operation is essentially at the Axis of the shafts 54 aligned. If the lever 56 and the Swing actuating lever 16 into its non-operating positions, as a result, they essentially pivot about the axes the waves 54. Each wave 54 will therefore neither move forward still move back when the lever 56 and the operating lever 16 swivel into the non-operating position and onto the Motion transmission members 52 will be little or no no motion transmitted. The motion transmission member 52 thus remains stationary, which causes the arm 50 and the Input shaft 48 of the hydraulic system 48 remain stationary. The alignment of the second pivot shaft 62 with the shaft 54 the preferred embodiment of the present invention thus prevents the vehicle 10 from moving forward or backward is driven when the operating lever 16 between its Operating and its non-operating position is moved.

The operator can move the driver's compartment 22 out of its second Return position to its first operating position by it grabs the driver's compartment 22 and forwards and downwards pivots. When the cab 22 is its first Approaching operating position, the lower corner area 64 of the Floor area 32 of the driver platform 12 again on the dampers 78 the lever 56 on, which causes the lever 56 in one Swing bow about the second pivot axis 62. Of the Actuating lever 16, which is coupled to lever 56, pivots about the second pivot axis 62 upwards into his Operating position. When the cab 22 is completely in its returns to the first operating position, presses the bottom of the Bottom region 32 the lever 56 and the operating lever 16 firmly in their operating positions. Stops 66 on the levers 56 are formed between the frame 28 and the bottom of the floor area 32 and thereby securely hold the Lever 56 in the correct position for operating the Vehicle 10 when the driver's compartment 22 is in its first Operating position.

The present invention enables the driver's compartment 22 to to pivot a relatively high pivot axis 24. A high-lying rear pivot axis 24 of the driver's compartment 22 is desirable because it is possible in this way that the cross member 44 between the posts 26 as well as between the upper arms 40 of the loading arm assembly 36 on one Body that extends backward and essentially located above the head of the operator. The height rearward positioning of the cross member 44 allows one Stabilization and reinforcement of the upper link 40 during the Operation of the loading arm assembly 36 and is selected so that the Cross member 44 is high enough not to the field of view To be an operator. The upper part 44 So does not obstruct the operator's view as he generally above the head of the seated Operator is located. The high-lying cross section 44 the swiveling movement could be part of the prior art Driver's cells get in the way, which goes up into one Swivel operating position. The high arrangement of the swivel axis 24 of the driver's cell 22 according to the preferred embodiment the invention allows the driver's compartment 22 upwards and swivel behind without the presence of the high cross member 44 would be hindered. The high pivot axis 24 the driver's compartment 22 causes the driver's compartment 22 during their initial movement phase from the first operating position in the second position essentially forward pivots. The pivoting control linkage 46 according to the preferred one Embodiment of the invention causes the Actuating lever 16 out of the way of the pivoting driver cell 22 pans in their initial movement phase. The swiveling Operating lever 16 according to the present embodiment the invention therefore allow a driver's compartment 22 by one to pivot high pivot axis 24, and a high arranged cross member 44 between the upper links 40 of the To provide loading arm assembly 36.

When the driver's cell 22 goes up to its second position has been pivoted to give the operator access to the Vehicle compartments 30 below the driver's seat 14 and the To grant floor area 32 of the driver platform 12 are Actuating lever 16 forward to its inoperative position pivoted. The are in the non-operating position Operating lever 16 in a lowered position in the essentially out of the way of the operator and thus offer increased access to the vehicle compartments 30 when the driver's compartment 22 goes up to the second position is pivoted. The operating levers 16 pivot automatically between their operating and decommissioning positions if the Driver's compartment 22 pivots and requires little or none additional effort or service from the Operator. The weight of the operating lever 16 moves this into its inoperative position when the driver's cell 22nd pivots up, and the installation of the driver's cell 22 against that Control linkage 46 pivots the operating levers 16 in their Operating position back when the driver's compartment 22 is down pivots. Springs and other power supplies could also be used used to operate the control levers 16 and control linkage 46 to push into their decommissioning position.

The operator becomes the secondary hand controls 70 seize during the operation of the vehicle 10 and so the Swing the operating lever 16 back and forth to the vehicle 10 to drive and steer. Secondary hand controls 70 can laterally with respect to the operating lever 16 be switched to other vehicle functions like that Swinging the loading shovel 34 with respect to the main arm 38 Taxes. Each is an end region of a cable 72 or rope functionally connected to the secondary hand control element 70. The Cables 72 extend within the operating levers 16 below and have opposite end areas that are functional with other vehicle components, such as the hydraulic components, which cause the loading bucket 34 to tilt are connected. The cable 72 is in response to actuation of the Secondary hand control 70 pulled, and this movement of the Cable 72 controls the other vehicle functions, such as tipping the loading shovel 34.

Claims (9)

Vehicle (10) with a vehicle frame (28), one Driver's cell (22) and at least one control linkage (46), the driver's cell (22) in an operating position and in an inoperative position can be brought and in which Out of service access to at least one Vehicle compartment (30) below the driver's compartment (22) is made possible, characterized in that the Control linkage (46) an operating position in which it protrudes at least partially into the driver's compartment (22), and can take a decommissioning position in which it is outside the range of movement of the driver's cell (22) located. Vehicle according to claim 1, characterized in that the Control linkage (46) is designed to be movable and on the Driver's cell (22) attacks or rests and as a result of Movement of the driver's cell (22) with this from the Decommissioning in the operating position and reversed. Vehicle according to claim 1 or 2, characterized in that the control linkage (46) has an actuating lever (16) has an essentially upright operating position and can take a decommissioning position in which it comes as a result of a downward movement. Vehicle according to one or more of the previous ones Claims, characterized in that the driver's compartment (22) a downward movement of the Operating lever (16) releases when it comes out of the lower Operating position in the out of service position above reached. Vehicle according to one or more of the previous ones Claims, characterized in that the actuating lever (16) on a lever (56) about a first pivot axis (58) and the lever (56) about a second pivot axis (62) is pivotally attached to the vehicle frame (28), the two pivot axes (58, 62) being radial to one another are offset and being a motion transmission link (52) for operating the vehicle (10) near the second Swivel axis (62) or in alignment with this on the lever (56) is attached. Vehicle according to one or more of the previous ones Claims, characterized in that the lever (56) from the driver's cell (22) around the second pivot axis (62) pressed down and the operating lever (16) in the Operating position is pivoted when the driver's compartment (22) sits on the lever (56) in the operating position. Vehicle according to one or more of the previous ones Claims, characterized in that the focus of the operating lever (16) on the with reference to the second pivot axis (62) the point of attack Driver's cell (22) opposite side of the lever (56) is arranged. Vehicle according to one or more of the previous ones Claims, characterized in that it is a slip-steering loader is formed and the actuating lever (16) serves to control the travel drive. Vehicle according to one or more of the previous ones Claims, characterized in that the lever (56) in Area of his system on the driver's compartment (22) with a Damper (78) is provided.

Images