WORKING MACHINE WITH A FRAME STRUCTURE CONTROLLED EMERGENCY STOP ACTUATOR

Abstract

The present disclosure relates to a working machine, comprising an electric traction motor configured to apply a torque on at least one wheel of the working machine during propulsion, an electric power system electrically connected to the electric traction motor; the electric power system being configured, during propulsion, to supply electric power to the electric traction motor, an emergency stop actuator arranged on an exterior surface of the working machine, the emergency stop actuator being electrically connected to the electric power system, wherein the electric power system is configured to cut off the electric power supply to the electric traction motor upon actuation of the emergency stop actuator, and a frame structure connected to the working machine, the frame structure comprising an abutment surface, wherein the frame structure is operatively arranged to move from a first position in which the abutment surface is arranged at a distance from the emergency stop actuator, to a second position in which the abutment surface is in abutment with the emergency stop actuator to thereby actuate the emergency stop actuator.

Claims

1. A working machine, comprising: an electric traction motor configured to apply a torque on at least one wheel of the working machine during propulsion; an electric power system electrically connected to the electric traction motor; the electric power system being configured to, during propulsion, supply electric power to the electric traction motor; an emergency stop actuator arranged on an exterior surface of the working machine, the emergency stop actuator being electrically connected to the electric power system, wherein the electric power system is configured to cut off the electric power supply to the electric traction motor upon actuation of the emergency stop actuator; and a frame structure connected to the working machine, the frame structure comprising an abutment surface, wherein the frame structure is operatively arranged to move from a first position in which the abutment surface is arranged at a distance from the emergency stop actuator, to a second position in which the abutment surface is in abutment with the emergency stop actuator to thereby actuate the emergency stop actuator.

2. The working machine according to claim 1, wherein the frame structure comprises a stationary portion fixedly connected to the working machine, and a movable portion movable relative to the working machine.

3. The working machine according to claim 2, wherein the abutment surface is arranged on the movable portion.

4. The working machine according to claim 2, wherein the exterior surface is arranged on the stationary portion of the frame structure.

5. The working machine according to claim 4, wherein the exterior surface is a plate arranged in parallel with the abutment surface.

6. The working machine according to claim 2, wherein the frame structure further comprises a biasing member arranged between the stationary portion and the movable portion.

7. The working machine according to claim 6, wherein the biasing member is a helical spring.

8. The working machine according to claim 1, wherein the frame structure comprises a first frame portion arranged in parallel with the working machine, and a second frame portion connected to the working machine, the second frame portion being arranged perpendicular to the first frame portion.

9. The working machine according to claim 8, wherein the first frame portion is pivotably connected to the second frame portion.

10. The working machine according to claim 8, wherein the first frame portion comprises a pair of first frame portion members.

11. The working machine according to claim 10, wherein the abutment surface is arranged on a first one of the pair of first frame portion members, and a second one of the pair of first frame portion members is pivotably connected to the second frame portion.

12. The working machine according to claim 11, wherein the first one of the pair of first frame portion members is arranged vertically above the second one of the pair of first frame portion members.

13. The working machine according to claim 1, wherein the frame structure is formed by a truss construction.

14. The working machine according to claim 1, wherein the working machine further comprises a service brake connected to the at least one wheel, the service brake being electrically connected to the electric power system and configured to assume an engaged state in which the at least one wheel is prevented from rotating, and a disengaged state in which the at least one wheel is allowed to rotate, wherein the electric power system is configured to control the service brake to assume an engaged state upon actuation of the emergency stop actuator.

15. The working machine according to claim 1, wherein the working machine is an autonomously controlled working machine comprising an autonomously controlled propulsion and steering system electrically connected to the electric power system.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] The above, as well as additional objects, features, and advantages, will be better understood through the following illustrative and non-limiting detailed description of exemplary embodiments, wherein:

[0025] FIG. 1 is a perspective view of a working machine according to one embodiment;

[0026] FIG. 2 is a perspective view illustrating a portion of the working machine according to an example embodiment in further detail; and

[0027] FIG. 3 is a detailed perspective view of the emergency stop actuator and the frame structure according to an example embodiment.

DETAILED DESCRIPTION

[0028] The present disclosure will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments are shown. The disclosed subject matter may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for thoroughness and completeness. Like reference character refer to like elements throughout the description.

[0029] With reference to FIG. 1, a working machine 1 is according to an example embodiment depicted. The inventive concept is applicable on any working machines within the fields of industrial construction machines or construction equipment, in particular dumpers/haulers. Although the present disclosure will be described with respect to a rigid hauler, the disclosed subject matter is not restricted to this particular machine, but may also be used in other working machines such as articulated haulers, excavators, backhoe loaders and wheel loaders.

[0030] As seen in FIG. 1 the working machine comprises a dump body 130 for accommodating a load. Merely as an example, and as is indicated in FIG. 1, the dump body 130 may be a loading platform of the working machine 1. The working machine 1 is adapted to have a load receiving condition in which the dump body 130 comprises an open load receiving area 131 outwardly delimited by a load receiving area circumference 134. Generally, the open load receiving area 131 may be an area that is directly accessible from the environment surrounding the working machine 1. For instance, the open load receiving area 131 may be an area that is directly accessible from the above of the dump body 130.

[0031] The working machine does not have a driver seat, but is intended to be autonomously and/or remotely driven. The working machine further comprises a first side 3 and a second side 2 arranged opposite to the first side 3, the second side 2 being a load dumping side 2. The first side 3 may also be referred to as an opposite side 3. The opposite side 3 may be used as a front-end side when the machine is driven in the direction that puts the opposite side 3 first. However, the working machine 1 may be drivable in any direction, i.e., it is bidirectional. Further, the dump body 130 comprises a load dumping end portion 132 arranged on the working machines load dumping side 2, and an opposite end portion 133 arranged on the working machines opposite side 3.

[0032] Furthermore, the working machine 1 comprises a frame structure 202, 204 connected to the working machine 1. As exemplified in FIG. 1, the working machine comprises a first frame structure 202 arranged at the longitudinal side of the working machine, and a second frame structure 204 arranged at the working machines opposite side 3. The working machine 1 may also be provided with a similar frame structure on the other longitudinal side as well as on the working machines load dumping side 2.

[0033] Further, the working machine 1 also comprises an emergency stop actuator 206, 208 arranged on the exterior surface of the working machine 1. In particular, and as will be described in further detail below with reference to FIGS. 2 and 3, the emergency stop actuator 206, 208 is arranged between the exterior surface of the working machine 1 and the frame structure 202, 204. Hence, the working machine 1 comprises a first emergency stop actuator 206 arranged between the exterior surface and the first frame structure 202, and a second emergency stop actuator 208 arranged between the exterior surface and the second frame structure 202.

[0034] Further, still referring to FIG. 1 the working machine 1 comprises a working machine frame 120 to which a pair of propulsion axles 16 is mounted. Each propulsion axle 16 comprises, amongst other things, drive shafts 16, 16. The working machine frame 120 further supports the dump body 130, and thereby carries the load of anything contained in the dump body 130 as well as the weight from the dump body itself. The propulsion axles 16 are connected to ground engaging members 160, 160 for driving the ground engaging members 160, 160. In FIG. 1 the ground engaging members 160, 160 are illustrated as wheels, however, they may also be crawlers.

[0035] Further, a prime mover, in the following referred to as an electric traction motor 36 is installed onto the propulsion axle 16 and coupled to the drive shafts 16, 16. The electric traction motor 36 can be coupled to the drive shafts 16, 16 via a transmission arrangement 38, or arranged as a wheel hub motor as indicated in FIG. 1.

[0036] Still further, the working machine 1 may comprise a tilting arrangement, such as a tilting arrangement comprising one or more tilting actuators 141, such as hydraulic actuators, for tilting the dump body 130 of the working machine 1. The tilting arrangement is in one end attached to the frame 120 and in the other end to the dump body 130. In some embodiments, the tilting arrangement comprises two tilting actuators 141 arranged at different sides of the dump body to ensure a stable tilting (not shown).

[0037] FIG. 1 finally discloses an electrical control arrangement 175, arranged to the frame of the working machine 1. The electrical control arrangement 175 comprises an electric power system 210 electrically connected to the electric traction motor 36. The electric power system 210 is thus arranged to feed electric power to the electric traction motor 36 during propulsion of the working machine 1. Further, the electric power system also comprises a power source (not shown) e.g., a battery arrangement, for supporting the electric motor 36 and any other components with power. Further, the electrical control arrangement 175 may comprise a control unit (not shown) for controlling the working machine. The control unit may be capable of receiving a remote control signal to enable the working machine to be remotely controlled. Such a signal may be received from an external transmitting unit (not shown). It may further be capable of communicating any information to or from the working machine from or to a remote server (not shown). Such information may comprise usage data, service information, battery status, load, weight, capacity utilization or any other relevant information.

[0038] Moreover, the above-described emergency stop actuator 206, 208 is electrically connected to the electric power system 210. In particular, during actuation of the emergency stop actuator 206, 208, i.e., when the emergency stop actuator 206, 208 is pushed towards the exterior surface of the working machine 1, the electric power system 210 cuts off the electric power supply to the electric traction motor 36. Thus, when the emergency stop actuator 206, 208 is actuated, the electric traction motor 36 will not receive electric power and will thereby not be able to further propel the working machine 1.

[0039] Still further, the working machine 1 also comprises a service brake 212, 214. As exemplified in FIG. 1, the working machine 1 comprises a first service brake 212 connected to one of the wheels, and a second service brake 214 connected to another one of the wheels. According to an example, the service brake 212, 214 is electrically connected to the electric power system 210. The service brake 212, 214 is configured to assume an engaged state in which the wheel 160 is prevented from rotating, and a disengaged state in which the wheel 160 is allowed to rotate. The electric power system 210 may hereby be configured to control the service brake 212, 214 to assume an engaged state upon actuation of the emergency stop actuator 206, 208.

[0040] In order to describe the emergency stop actuator 206, 208 and the frame portion 202, 204 in further detail, reference is now made to FIG. 2, which is a perspective view illustrating a portion of the working machine 1 according to an example embodiment in further detail. The following description is applicable to the emergency stop actuator 206 and frame portion 202 on the longitudinal side as well as the emergency stop actuator 208 and frame portion 204 on the working machines opposite side 3. However, for simplifying for the reader, reference will in the following only be made to the emergency stop actuator 206 and frame portion 202 on the longitudinal side.

[0041] As exemplified in FIG. 2, the frame structure 202 is exemplified as formed by a truss construction and comprises a stationary portion 220 fixedly connected to the working machine 1. In particular, the stationary portion 220 is connected to the working machine 1 by means of a rod 222 from the stationary portion 220 to the exterior surface 230 of the working machine. The rod 222 may form part of the exterior surface 230 of the working machine 1. Put it differently, the exterior surface 230 is arranged on the stationary portion 220 of the frame structure 202. Further, the frame structure 206 also comprises a movable portion 224. The movable portion 224 is movable relative to the working machine 1. In detail, the movable portion 224 is movable towards the exterior surface 230 as well as movable away from the exterior surface 230.

[0042] Further, the frame structure 202, and in particular the movable portion 224, comprises an abutment surface 240. The abutment surface 240 is facing the emergency stop actuator 206. When the frame structure 202 is exposed to a force F in a direction towards the exterior surface 230 of the working machine 1, the movable portion 224 is moves from a first position in which the abutment surface is arranged at a distance from the emergency stop actuator 206, to a second position in which the abutment surface 224 is in abutment with the emergency stop actuator 206. The emergency stop actuator 206 is hereby actuated and the above-described electric power system cuts off the electric power supply to the electric traction motor, and optionally also controls the service brake 212, 214 to assume the engaged state.

[0043] According to the example depicted in FIG. 2, the frame structure 202 comprises a first frame portion 250 arranged in parallel, i.e., extending along the exterior surface 230 of the working machine 1. The frame structure 202 also comprises a second frame portion 254. The second frame portion 254 is connected to the working machine 1 and is arranged stationary relative to the exterior surface 230 of the working machine 1. As can be seen in FIG. 2, the frame structure 206 comprises a pivot joint 260, 262, in FIG. 2 exemplified as a first pivot joint 260 and a second pivot joint 262. The first 250 and second 254 frame portions are thus pivotably connected to each other.

[0044] Moreover, the first frame portion 250 comprises a pair of first frame portion members 256, 258. One of the first frame portion members 256 is arranged vertically above the other one of the first frame portion members 258. Put it differently, the first frame portion 250 comprises an upper first frame portion member 256 and a lower first frame portion member 258. As can be seen in FIG. 2, the abutment surface 240 is arranged on upper first frame portion member 256. The upper 256 and lower 258 frame portion members are connected to each other by means of two vertically arranged frame portion members 270, 272.

[0045] In order to describe an example of the frame structure 202 in yet further detail, reference is now made to FIG. 3. As can be seen in FIG. 3, the exterior surface 230 is arranged as a plate 270. The plate 270 is arranged in parallel with the abutment surface 240 of the frame structure 202. As is evident from FIG. 3, the exterior surface 230 is arranged on, or forms part of, the stationary portion 220 of the frame structure 202. The emergency stop actuator 206 is thus attached to the plate 270 and the plate is stationary relative to the working machine 1.

[0046] Moreover, the frame structure 202 comprises a biasing member 280, in FIG. 3 exemplified as a helical spring. The biasing member 280 is attached between the upper first frame portion member 256 and the plate 270. In particular, the biasing member 280 urges the upper first frame portion member 256 in a direction away from the plate 270 when no force F is applied onto the upper first frame portion member 256. In detail, the abutment surface 240 is, by means of the biasing member, urged away from the emergency stop actuator 206 when no force F is applied onto the upper first frame portion member 256.

[0047] It is to be understood that the present disclosure is not limited to the embodiments described above and illustrated in the drawings; rather, the skilled person will recognize that many changes and modifications may be made within the scope of the appended claims.