JP2019094657A - Construction machine - Google Patents

Abstract

To provide a construction machine capable of protecting an upper turning body from a peripheral obstacle, and capable of easily executing oil supply work to an oil storage tank.SOLUTION: A fuel tank 10 is provided on a turning frame 6 by being positioned on the right side of becoming one side in the lateral direction by sandwiching a front device 5. A guard member 21 is rotatably installed in a position corresponding to the fuel tank 10 in an outside position of a right side frame 6F. The guard member 21 can be switched to a guard position for protecting the fuel tank 10 by arranging the whole on the upper side than a lower travel body 2 and extending in the longitudinal direction and a step position of becoming a lifting step onto an upper turning body 4 arranged over between an upper turning body 4 and the lower travel body 2 and by extending in the vertical direction.SELECTED DRAWING: Figure 1

Description

  The present invention relates to, for example, a construction machine such as a hydraulic shovel used at a site of civil engineering, forestry, demolition, underground construction and the like.

  For example, Patent Document 1 describes a hydraulic shovel provided with a guard structure for protecting an exterior cover on an upper revolving superstructure. According to the technique of Patent Document 1, the guard structure can protect the exterior cover from surrounding obstacles. In addition, since the guard structure opens and closes like a door, maintainability can be improved.

JP, 2015-158056, A

  By the way, among hydraulic excavators used at sites such as civil engineering, forestry, dismantling, underground construction, hydraulic excavators (forestry machines) used at forestry sites such as forest road construction work, logging work, collecting work, etc. Work is often done in the mountains. For this reason, fuel or hydraulic fluid refueling operations may have to be performed manually using a carrying tank (e.g., a poly tank). On the other hand, the filling port of the oil storage tank (fuel tank, hydraulic oil tank) of the hydraulic shovel is on the upper surface of the upper revolving superstructure. For this reason, depending on the size of the hydraulic shovel, a person may stand on the crawler belt (shoe) of the lower traveling body to refuel the oil storage tank.

  However, even when standing on a track, for example, the hand may not reach the filler opening sufficiently, which may make it difficult to supply oil to the oil storage tank. In addition, if the height position of the upper surface of the crawler belt is higher than, for example, the position of the knee of the person who performs the refueling operation, the operation of standing on the crawler belt may be troublesome. For this reason, the refueling operation may be complicated also from this aspect.

  An object of the present invention is to provide a construction machine capable of protecting a revolving super structure from surrounding obstacles and capable of easily performing an operation of refueling an oil storage tank.

  The construction machine according to the present invention comprises a self-propelled lower traveling body and an upper revolving body pivotally mounted on the lower traveling body, the upper revolving body having a front frame attached to the front side, and And an oil storage tank provided on the swing frame and located on one side of the front device in the left and right directions and storing hydraulic fluid or fuel, and the swing frame is an intermediate between the left and right directions. A construction machine including: a center frame having a bottom plate located in the lower part; and left and right side frames disposed on both sides in the left and right directions of the center frame and extending forward and backward. A guard member is rotatably attached at a position corresponding to the oil storage tank at an outer position of one of the left and right side frames, and the guard member is entirely A guard position for protecting the oil storage tank by being disposed above the lower traveling body and extending forward and backward, and disposed between the upper swing body and the lower traveling body and extending upward and downward Thus, it is possible to switch to a step position which is a step for raising and lowering on the upper swing body.

  According to the present invention, the upper swing body can be protected from surrounding obstacles, and the oil storage tank can be easily refueled. That is, when the guard member is fixed at the guard position, the upper pivoting body can be protected from surrounding obstacles (for example, trees) by the guard member. On the other hand, when the guard member is fixed at the step position, the guard member can be moved up and down to approach the oil supply port of the oil storage tank. As a result, it is possible to easily perform the oiling operation to the oil storage tank.

It is a front view which shows the hydraulic shovel by embodiment in the state of a guard member in a guard position. It is the perspective view which expanded the (II) part in FIG. It is a front view which shows the hydraulic shovel by embodiment in the state of a guard member in a step position. It is the perspective view which expanded the (IV) part in FIG. In order to demonstrate the state which is using a guard member as a step, it is explanatory drawing which looked at a hydraulic shovel from the back in the state which made the guard member a step position. It is a top view which shows the hydraulic shovel in FIG. It is a top view which shows a turning frame and a guard member. It is a disassembled perspective view which shows a turning frame, a guard support axial part, a guard fixed axial part, a rotation control member, a guard member, etc. It is a perspective view for demonstrating the positional relationship of a guard support axial part, a guard fixed axial part, a rotation regulation member, a rotation fitting cylinder, a cylinder for guard position fixation, etc. It is the perspective view which saw the guard member etc. by a 1st modification from the same position as FIG. It is the perspective view which saw the guard member etc. by a 2nd modification from the same position as FIG.

  Hereinafter, the embodiment of the present invention will be described in detail with reference to the attached drawings, taking as an example a case where the invention is applied to a hydraulic shovel as a representative example of a construction machine.

  1 to 9 show an embodiment. In FIG. 1, a hydraulic shovel 1 as a construction machine is widely used in civil engineering, forestry, dismantling, underground construction and the like. Among these, the hydraulic shovel 1 according to the embodiment is, for example, a medium-sized (for example, a machine weight of about 7 to 15 tons) hydraulic shovel (medium-sized forestry machine) used at a forestry site such as forest road creation work and collecting work. Is configured as). In this case, the hydraulic shovel 1 can be turned within 120% to 130% of the vehicle width of the lower traveling body 2 while the counterweight 8 attached to the rear is formed in an arc shape. It is configured as a rear super small swing machine or a rear small swing machine.

  The hydraulic shovel 1 is configured as a cab-spec hydraulic shovel. The hydraulic shovel 1 includes a self-propelled crawler type lower traveling body 2, a soil removing device (not shown) provided on the lower traveling body 2 so as to be able to swing upward and downward, and the lower traveling body 2. It is configured to include an upper swing body 4 rotatably mounted via a swing device 3 on the upper side, and a front device 5 provided on the upper swing body 4 so as to be capable of raising and lowering. In this case, the lower traveling body 2 and the upper revolving superstructure 4 constitute the vehicle body of the hydraulic shovel 1.

  The lower traveling body 2 has, for example, a crawler belt 2A in which a plurality of shoes are attached to an endless track link, and left and right traveling hydraulic pressure for traveling the hydraulic shovel 1 by circumferentially driving the crawler belt 2A. It is comprised including a motor (not shown). The pivoting device 3 is provided between the lower traveling body 2 and the upper pivoting body 4 (the pivot frame 6 described later) and rotatably supports the upper pivoting body 4 and a center O of the pivoting wheel 3A (see FIG. And 6) as a rotation center, and includes a turning hydraulic motor 3B (see FIG. 6) for driving the upper turning body 4 to turn.

  As shown in FIG. 6, a center joint 3 </ b> C for circulating pressure oil between the lower traveling body 2 and the upper swing body 4 is provided at the position of the turning center O. Further, as shown in FIG. 6, the upper swing body 4 has left and right width dimensions substantially equal to the left and right width dimensions (vehicle width) of the lower traveling member 2. Then, when the upper swing body 4 turns around the swing center O on the lower traveling body 2, the rear surface 8A of the counterweight 8 described later falls within 120% to 130% of the vehicle width of the lower traveling body 2. It is supposed to be. Thus, the hydraulic shovel 1 is configured as a rear super small turning type or a rear small turning type hydraulic shovel.

  The front device 5 also called a work device is provided on the front side of the upper swing body 4. The front device 5 includes, for example, a boom 5A, an arm 5B, a log grapple (log fork) 5C as a work tool (attachment), a boom cylinder 5D for driving them, an arm cylinder 5E, and a work tool cylinder 5F. It is done. The log grapple 5C has a pair of forks 5C1 that can be opened and closed by a hydraulic actuator (not shown). The log grapple 5C can hold or release wood or the like by opening and closing the fork 5C1.

  The upper swing body 4 includes a swing frame 6 serving as a support structure (base frame) of the upper swing body 4, a cab 7 mounted on the swing frame 6, a counterweight 8, a hydraulic oil tank 9, a fuel tank 10 and the like. Is equipped. Various devices such as an engine, a hydraulic pump, a heat exchanger, a control valve device and the like (not shown) are mounted on the swing frame 6 in front of the counterweight 8. These various devices are covered by an exterior cover 11 which forms an outer shell of the upper swing body 4. In addition, a front device 5 is mounted on the front side of the swing frame 6.

  As shown in FIG. 7, the swing frame 6 is provided on a bottom plate 6A extending in the front and back directions and made of a thick steel plate or the like and on the bottom plate 6A, with a predetermined distance in the left and right directions. Left vertical plate 6B and right vertical plate 6C, and a plurality of overhang beams 6D extending leftward and rightward from the respective vertical plates 6B and 6C, spaced forward and backward, and left The right and left side frame 6E and the right side frame 6F are attached to the tip of each outrigger beam 6D and located on the outside in the right direction.

  Here, the bottom plate 6A, the left vertical plate 6B, and the right vertical plate 6C constitute a center frame of the turning frame 6. The center frame (bottom plate 6A, left vertical plate 6B, right vertical plate 6C) is located at the left, right inner side of the swing frame 6, that is, at the left (right) middle portion (center) of the swing frame 6. There is. On the other hand, the left side frame 6E and the right side frame 6F are provided on the left and right outsides of the turning frame 6, that is, on the left and right sides of the center frame (bottom plate 6A, left vertical plate 6B and right vertical plate 6C). Each is arranged.

  On the rear side of the swing frame 6, a plurality of, for example, four engine brackets 6G are provided between the left vertical plate 6B and the right vertical plate 6C. The engine bracket 6G supports an engine (not shown) via an anti-vibration mount. Further, a boom 5A and a boom cylinder 5D of the front device 5 are attached to the front of the left vertical plate 6B and the right vertical plate 6C, and a counterweight 8 is attached to the rear.

  Further, a guard member 21 described later is provided at an outer position of the right side frame 6F which is one of the left side frame 6E and the right side frame 6F. Here, the “one side frame” corresponds to the right side frame on which the hydraulic oil tank 9 and the fuel tank 10 described later are provided, that is, the right side frame 6F. The “outside position” corresponds to the outer position of the upper swing body 4, that is, the outer position opposite to the direction toward the center side of the upper swing body 4. And the below-mentioned guard support axial part 12 and guard fixed axial part 17 are provided in the outside position of right side frame 6F.

  In the cab 7, a driver's seat (not shown) on which an operator is seated is provided. Around the driver's seat, a traveling lever / pedal operating device for operating the hydraulic shovel 1 and a working lever operating device are provided. The operator operates the traveling lever / pedal operating device and the working lever operating device to perform the traveling operation by the lower traveling body 2, the turning operation of the upper swing body 4, the gripping operation of the wood by the front device 5, etc. Can.

  The counterweight 8 is provided on the rear side of the swing frame 6. The counterweight 8 is formed as a weight that balances weight with the front device 5. As shown in FIG. 6, the turning radius R when the upper turning body 4 performs a turning operation is defined by the distance from the turning center O to the rear surface 8A of the counterweight 8. For this reason, the rear surface 8A of the counterweight 8 is formed in an arc having a radius R centered on the turning center O. The counterweight 8 is configured to be capable of turning within 120% to 130% of the vehicle width of the lower traveling body 2 by arranging the counterweight 8 closer to the front side near the turning center O.

  The hydraulic oil tank 9 as an oil storage tank is provided on the swing frame 6 so as to be located on the front side of the counterweight 8 (more specifically, on the front side of the hydraulic pump). That is, the hydraulic oil tank 9 is provided on the swing frame 6 so as to be located on the right side which is one side of the front device 5 in the left and right directions. The hydraulic oil tank 9 is a hydraulic actuator (a traveling hydraulic motor, a swing hydraulic motor, a swing hydraulic motor 3B, a boom cylinder 5D, an arm cylinder 5E, a work) provided to the lower traveling body 2, the swing device 3 and the front device 5. The hydraulic oil for driving the tool cylinder 5F etc. is stored.

  A fuel tank 10 as an oil storage tank is provided on the swing frame 6 so as to be aligned on the left and right outside of the upper swing body 4 with respect to the hydraulic oil tank 9. That is, similarly to the hydraulic oil tank 9, the fuel tank 10 is also provided on the swing frame 6 so as to be located on the right side which is one side in the left and right directions sandwiching the front device 5. In this case, the fuel tank 10 is provided on the outer peripheral side of the upper revolving superstructure 4 than the hydraulic oil tank 9. The fuel tank 10 is for storing fuel to be supplied to the engine.

  Next, the guard member 21 attached to the upper swing body 4 will be described.

  A guard member 21 is rotatably mounted at a position corresponding to the fuel tank 10 at an outer position of the right side frame 6F of the swing frame 6. That is, the guard member 21 is rotatably attached to the right side frame 6F, which is the side frame on the fuel tank 10 side, of the left and right side frames 6E, 6F. In this case, the guard member 21 can be switched between the guard position shown in FIG. 1, FIG. 2, FIG. 6 and FIG. 7 and the step position shown in FIG. It is possible to selectively fix at one position. In this case, the guard member 21 is disposed at the required position of the guard position and the step position by rotating the guard position to the step position or by rotating the step position to the guard position. Can.

  Here, when the guard member 21 is in the guard position, the entire guard member 21 is disposed above the lower traveling body 2. That is, the guard position corresponds to a position where the fuel tank 10 is protected by the guard member 21 by the guard member 21 extending in the forward and backward directions. As shown in FIG. 6, when the guard member 21 is in the guard position, the guard member 21 fits within the virtual circle S of the turning radius R when the upper swing body 4 turns. On the other hand, when the guard member 21 is in the step position, the guard member 21 is disposed between the upper swing body 4 and the lower traveling body 2. That is, the step position is a position at which the guard member 21 can be moved up and down on the upper swing body 4 by using the guard member 21 extending upward and downward (for raising and lowering the upper swing body 4 Corresponds to the position to be a step). In this case, that is, even when the guard member 21 is at the step position, the guard member 21 fits within the virtual circle S of the turning radius R when the upper swing body 4 turns as in the case of the guard position. When the guard member 21 is in the step position, the upper swing body 4 is not pivoted.

  As described above, the right side frame 6F includes the guard support shaft 12 and the guard as shown in FIG. 8 so that the guard member 21 can be selectively fixed to the guard position and the step position. A fixed shaft portion 17 is provided. Here, the guard support shaft portion 12 rotatably supports the guard member 21. The guard support shaft portion 12 includes a frame attachment portion 13, a support cylinder portion 14, and a lid 15.

  The frame attachment portion 13 is a base portion (bracket) for fixing the support cylinder portion 14 to the right side frame 6F, and is formed in a clog-like shape (U-shape) as a whole. That is, the frame attachment portion 13 includes a support plate 13A having an insertion hole 13A1 through which the support cylindrical portion 14 is inserted, and a pair of leg portions 13B and 13B extending from the support plate 13A toward the right side frame 6F. . The support cylinder portion 14 is fixed to the support plate 13A using, for example, welding means in a state of being inserted into the insertion hole 13A1 of the support plate 13A. The legs 13B and 13B are fixed at positions outside the right side frame 6F and at positions corresponding to the front side of the fuel tank 10 using, for example, welding means. Thus, the frame attachment portion 13 is firmly fixed to the right side frame 6F together with the support cylindrical portion 14.

  The support cylinder portion 14 is formed as a cylindrical body. The rotary fitting cylindrical portion 24 of the guard member 21 is rotatably fitted on the outer peripheral side of the support cylindrical portion 14. Thus, the guard member 21 is rotatable around the support cylindrical portion 14 of the guard support shaft portion 12. The support cylindrical portion 14 is provided with a pair of pin holes 14A facing in the horizontal direction at positions separated by 180 ° in the circumferential direction. When the guard member 21 is fixed at the guard position or the step position, the fixing pin 27 described later is inserted into the pin hole 14A.

  The lid 15 is provided in the support cylinder 14 so as to close the opening of the support cylinder 14. The lid 15 is formed with a pair of female screw holes 15A, 15A. Bolts 16, 16 for fixing the rotation restricting member 20 to the guard support shaft 12 are screwed into the female screw holes 15A, 15A. That is, in a state where the rotation fitting cylindrical portion 24 of the guard member 21 is fitted to the support cylindrical portion 14, the rotation restricting member 20 is fixed to the support cylindrical portion 14 (lid 15) using the bolts 16 and 16. Be done.

  The guard fixing shaft portion 17 fixes the guard member 21 at the guard position and the step position. As shown in FIG. 8, the guard fixed shaft portion 17 includes a mounting plate 18 and a fixed shaft 19. The mounting plate 18 serves as a base (bracket) for fixing the fixed shaft 19 to the right side frame 6F. The fixed shaft 19 is fixed to the surface side of the mounting plate 18 using, for example, welding means. The rear surface side of the mounting plate 18 is fixed to the right side frame 6F at an outer position and at a position corresponding to the rear side of the fuel tank 10 using, for example, welding means. Thus, the mounting plate 18 is firmly fixed to the right side frame 6F together with the fixed shaft 19.

  Here, the mounting plate 18 has a separation dimension H1 between (the center of) the fixed shaft 19 of the guard fixed shaft portion 17 and (the center of the support cylindrical portion 14 of the guard support shaft portion 12 the rotation fitting of the guard member 21. Distance dimension H2 between (the center of) the cylindrical portion 24 and (the center of) the guard position fixing cylindrical portion 25 and (the center of the rotation fitting cylindrical portion 24 of the guard member 21 and the step position fixing cylindrical portion 26 (the Fixed so as to be equal to the separation dimension H3 with respect to the center of That is, the separation dimensions H1, H2, and H3 have a relationship of H1 = H2 = H3.

  The fixed shaft 19 is formed as a cylindrical body. The guard position fixing cylindrical portion 25 or the step position fixing cylindrical portion 26 of the guard member 21 is fitted on the outer peripheral side of the fixed shaft 19. That is, when the guard member 21 is in the guard position, the guard position fixing cylinder portion 25 of the guard member 21 is fitted on the outer peripheral side of the fixed shaft 19 of the guard fixed shaft portion 17. On the other hand, when the guard member 21 is in the step position, the step position fixing cylinder portion 26 of the guard member 21 is fitted on the outer peripheral side of the fixed shaft 12B of the guard fixed shaft portion 17.

  The rotation restricting member 20 is provided on the guard support shaft 12. That is, the rotation restricting member 20 is fixed to the guard support shaft 12 using a pair of bolts 16 and 16. To this end, the rotation restricting member 20 is provided with bolt insertion holes 20B and 20B. The bolts 16, 16 are inserted into the bolt insertion holes 20B, 20B of the rotation restricting member 20 and screwed into the female screw holes 15A, 15A provided in the lid 15 on the inner side of the guard support shaft portion 12. Thus, the rotation restricting member 20 is attached to the guard support shaft 12.

  The rotation restricting member 20 prevents the rotation fitting cylindrical portion 24 of the guard member 21 from coming out of the support cylindrical portion 14 of the guard support shaft 12. At the same time, the rotation restricting member 20 restricts the rotation of the guard member 21 when the guard member 21 is rotated. Specifically, the rotation restricting member 20 restricts the rotation within a range of 90 ° between the guard position and the step position. For this purpose, the rotation restricting member 20 is formed in a disk shape having an outer diameter dimension larger than the outer diameter of the rotary fitting cylindrical portion 24 of the guard member 21 and a part of the outer peripheral edge, ie, The range from 9 o'clock to 12 o'clock in the clockwise direction as viewed from the outside of the upper swing body 4 is notched radially inward. In other words, the notch 20A is provided on the outer peripheral edge of the rotation restricting member 20 in the range from 9 o'clock to 12 o'clock in the clockwise direction.

  The notch 20A restricts the displacement of the corner 23A3 of the central connecting plate 23A of the guard member 21 to a range of 90 ° between the guard position and the step position when the guard member 21 is rotated. When the corner 23A3 of the guard member 21 abuts on the step 20A1 corresponding to the twelve o'clock position of the notch 20A, the guard member 21 is positioned at the guard position. On the other hand, when the corner 23A3 of the guard member 21 abuts on the step 20A2 corresponding to the 9 o'clock position of the notch 20A, the guard member 21 is positioned at the step position.

  The guard member 21 includes a frame 22, a plurality of connection plates 23A, 23B, 23C, a rotary fitting cylindrical portion 24, a guard position fixing cylindrical portion 25, and a step position fixing cylindrical portion 26. . The frame 22 is formed in a rectangular shape as a whole using a pipe material. That is, the frame 22 is formed in a rectangular shape as a whole by the pair of support portions 22A and 22B and the pair of connection portions 22C and 22D. The pair of support portions 22A and 22B respectively serve as the support members of the guard member 21. One of the support portions 22A and 22B (for example, the lower side at the guard position and the front side at the step position) The pillars 22B of the upper side and the rear side in the step position) extend in parallel with each other.

  The support rods 22A and 22B are provided with narrow frame rods 22E and 22E extending in parallel to the support rods 22A and 22B, respectively. The narrow rod 22E, 22E, for example, is for binding a fixing rope (not shown) for fixing the article when the article is placed on the connection plates 23A, 23B, 23C, or for covering the article It is possible to hook the hook of the restraining net (net). In addition, it has a role as a handrail when used in steps, and is a grip when rotating.

  The pair of connecting portions 22C and 22D serve as connecting members of the guard member 21. One connecting portion 22C connects one end side (for example, the rear end side at the guard position and the lower end side at the step position) of one support portion 22A with one end side of the other support portion 22B. There is. The other connecting portion 22D connects the other end side of one support column 22A (for example, the front end side at the guard position and the upper end side at the step position) and the other end side of the other support column 22B ing. A footplate 22F, which is a footrest when the guard member 21 is used as a step, is fixed to the connecting portions 22C and 22D using, for example, welding means.

  The connecting plates 23A, 23B, 23C are provided in the frame 22 in parallel with the connecting portions 22C, 22D. The connection plates 23A, 23B, and 23C, together with the connection portions 22C and 22D of the frame 22, correspond to connection members. That is, the three connecting plates 23A, 23B, 23C, together with the two connecting portions 22C, 22D of the frame 22, have a predetermined (for example, constant) spacing in the longitudinal direction of the support portions 22A, 22B of the frame 22. Are arranged. The connecting plates 23A, 23B, 23C, together with the connecting portions 22C, 22D of the frame 22, connect between the support portions 22A, 22B of the frame 22.

  A central connection plate 23A located at the center among the three connection plates 23A, 23B, 23C is provided between the rotary fitting cylinder 24 and the step position fixing cylinder 26. That is, one side of the central connection plate 23A is fixed to the outer peripheral side of the rotary fitting cylindrical portion 24 by using, for example, welding means, and the other side is fixed to the outer peripheral side of the step position fixing cylindrical portion 26 by using, for example, welding means. ing. On one side of the central connection plate 23A, that is, on the side of the rotary fitting cylindrical portion 24, a relief portion 23A1 cut in a semicircular shape is provided. The tip of the fixing pin 27 enters the clearance 23A1 when the guard member 21 is at the step position. Thereby, the end of the fixing pin 27 and the central connecting plate 23A are prevented from interfering with each other.

  Further, the end edge 23A2 of the outer side (for example, the X direction side in FIG. 9) of the central connection plate 23A protrudes to the outer side than the outer end portion of the rotary fitting cylindrical portion 24. That is, the corner 23A3 on one side of the central connecting plate 23A and outside thereof protrudes outward beyond the opening edge on the outside of the rotary fitting cylindrical portion 24. The corner 23A3 enters the notch 20A of the rotation restricting member 20 when the guard member 21 is rotated. Then, for example, the guard member 21 is rotated counterclockwise around the guard support shaft 12 from the guard position toward the step position. At this time, the corner 23A3 abuts on the step 20A2 corresponding to the 9 o'clock position of the notch 20A, whereby the guard member 21 is positioned at the step position. On the other hand, the guard member 21 is rotated clockwise about the guard support shaft 12 from the step position toward the guard position. At this time, the guard 23 is positioned at the guard position by the corner 23A3 contacting the step 20A1 corresponding to the 12 o'clock position of the notch 20A.

  In the three connection plates 23A, 23B and 23C including the central connection plate 23A, female screw holes 23A4, 23B1 and 23C1 for attaching an article to the connection plates 23A, 23B and 23C are provided. Further, in the treads 22F and 22F provided in the connecting portions 22C and 22D of the frame 22, female screw holes 22F1 and 22F1 for attaching an article to the treads 22F and 22F are provided. Therefore, as in the first modified example shown in FIG. 10, when the guard member 21 is at the step position, the storage box 31 such as a tool box is bolted to the first connection plate 23B located on the upper side. Can be attached using In this case, the bottom plate of the storage box 31 is provided with a female screw hole into which a bolt is screwed.

  For example, the mounting base 32 for mounting various articles, such as a chain saw and a carrying tank, can also be attached to the footplate 22F of one connection part 22C using the bolt 33. Furthermore, as in the second modified example shown in FIG. 11, the mounting table 32 can also be attached to both the footplate 22F of one connecting portion 22C and the footplate 22F of the other connecting portion 22D using bolts 33. . By providing the mounting table 32 in this manner, the portion on which the foot is placed or the portion on which the article is placed can be made wider (extended) than the tread 22F.

  The rotary fitting cylindrical portion 24 is rotatably fitted to (the support cylindrical portion 14 of) the guard support shaft 12. The rotation fitting cylindrical portion 24 is provided on one of the support portions 22A, 22B of the pair of support portions 22A. In this case, the rotary fitting cylindrical portion 24 is located at an intermediate portion in the longitudinal direction of one of the column portions 22A. The rotation fitting cylindrical portion 24 is formed as a cylindrical body. The guard support shaft portion 12 (the support cylindrical portion 14 thereof) is rotatably inserted into the inner peripheral side of the rotary fitting cylindrical portion 24. Thus, the guard member 21 is rotatable around the support cylindrical portion 14 of the guard support shaft portion 12.

  The rotational fitting cylindrical portion 24 has an axial dimension shorter than that of the support cylindrical portion 14 of the guard support shaft 12. Thereby, the rotation fitting cylinder 24 can move in the axial direction of (the support cylinder 14 of) the guard support shaft 12. Specifically, as shown in FIG. 9, the rotary fitting cylindrical portion 24 is axially moved by an axial dimension A between the frame attachment portion 13 of the guard support shaft portion 12 and the rotation restricting member 20. It is possible. That is, the guard member 21 can move by the axial dimension A between the position shown by the broken line in FIG. 9 and the position shown by the solid line. In this case, the axial dimension A is larger than the axial dimension (height dimension, projecting dimension) B of the fixed shaft 19 of the guard fixed shaft portion 17.

  That is, the inner end of the rotary fitting cylindrical portion 24 abuts on the support plate 13A of the frame mounting portion 13, and the guard position fixing cylindrical portion 25 is fitted to the fixed shaft 19 of the guard fixed shaft portion 17. When it is moved by the axial dimension A in the X direction from the above state, the state shown by the solid line in FIG. 9 is obtained. In this state, the guard position fixing cylinder 25 is separated from the fixing shaft 19 of the guard fixing shaft 17 by a gap size C, and the corner 23A3 of the central connecting plate 23A is in the notch 20A of the rotation restricting member 20. Get in. That is, the axial dimensions A and B and the clearance dimension C have a relationship of A−B = C. When the guard member 21 is moved from the position shown by the broken line in FIG. 9 to the position shown by the solid line, it can rotate along the notch 20A of the rotation restricting member 20.

  Pin holes 24A and 24B are provided in the rotational fitting cylindrical portion 24 at positions separated by 90 ° in the circumferential direction. That is, in the rotary fitting cylindrical portion 24, a pair of guard position pin holes 24A, 24A are provided facing each other at positions corresponding to the extending direction of the support portion 22A. Further, in the rotation fitting cylindrical portion 24, a pair of step position pin holes 24B and 24B are provided facing each other at positions corresponding to the direction in which the central connection plate 23A extends. The fixing pin 27 is inserted into the guard position pin holes 24A and 24A when the guard member 21 is fixed at the guard position. The fixing pin 27 is inserted into the step position pin holes 24B and 24B when the guard member 21 is fixed at the step position. As shown in FIG. 8, the separation dimension K between the centers of the guard position pin holes 24A and 24A and the step position pin holes 24B and 24B and the inner edge of the rotary fitting cylinder 24 is the guard support shaft 12 The spacing dimension L between the center of the pin hole 14A of the support cylindrical portion 14 and the support plate 13A of the guard support shaft portion 12 is the same. That is, the separation dimensions K and L are K = L.

  The guard position fixing cylindrical portion 25 is fitted to (the fixed shaft 19 of) the guard fixed shaft portion 17 when the guard member 21 is in the guard position. The guard position fixing cylindrical portion 25 is provided on one of the support portions 22A, 22B of the pair of support portions 22A. In this case, the guard position fixing cylindrical portion 25 is located on one end side (the rear end side at the guard position and the lower end side at the step position) of one column portion 22A in the longitudinal direction. The guard position fixing tubular portion 25 is formed as a cylindrical body. When the guard member 21 is in the guard position, the fixed shaft 19 of the guard fixing shaft portion 17 is inserted inside the guard position fixing cylindrical portion 25.

  When the guard member 21 is at the step position, the step position fixing tubular portion 26 is fitted to (the fixed shaft 19 of) the guard fixing shaft portion 17. The step position fixing cylindrical portion 26 is provided on the other support portion 22B of the pair of support portions 22A and 22B. In this case, the step position fixing cylindrical portion 26 is located at an intermediate portion in the length direction of the other support portion 22B. The step position fixing cylindrical portion 26 is formed as a cylindrical body. When the guard member 21 is in the step position, the fixing shaft 19 of the guard fixing shaft portion 17 is inserted inside the step position fixing cylindrical portion 26.

  The fixing pin 27 is a rotation blocking pin that prevents the rotation fitting cylindrical portion 24 of the guard member 21 from rotating around (the support cylindrical portion 14 of) the guard support shaft 12. When the guard member 21 is in the guard position and the inner end of the rotary fitting cylindrical portion 24 abuts on the support plate 13A of the frame mounting portion 13, the fixed pin 27 is the rotary fitting cylindrical portion 24. Can be inserted into the guard position pin holes 24A and 24A and the pin holes 14A of the guard support shaft portion 12 (support cylinder portion 14). Further, when the guard member 21 is at the step position and the inner end of the rotary fitting cylindrical portion 24 is in contact with the support plate 13A of the frame mounting portion 13, the fixing pin 27 is a rotary fitting cylindrical It can be inserted into the step position pin holes 24B and 24B of the portion 24 and the pin holes 14A of the guard support shaft portion 12 (support cylinder portion 14).

  The proximal end side of the fixing pin 27 is a gripping portion 27A that is gripped when the fixing pin 27 is inserted and removed. At the front end side of the fixing pin 27, an engagement hole 27B (FIG. 8) is provided in which the stopper 28 as a stopper is attached. The fixing pin 27 is prevented from coming out of the pin holes 24A, 24B and 14A by attaching the stopper 28 to the engagement hole 27B. On the other hand, when the stopper 28 is removed from the engagement hole 27B of the fixing pin 27, the fixing pin 27 can be extracted from the pin holes 24A, 24B and 14A.

  Then, when the fixing pin 27 is extracted from the pin holes 24A, 24B and 14A and the guard member is moved in the X direction in FIG. 9, the corner 23A3 of the guard member 21 gets into the notch 20A of the rotation restricting member 20, Also, the guard position fixing cylindrical portion 25 or the step position fixing cylindrical portion 26 of the guard member 21 is disengaged from the fixing shaft 19 of the guard fixing shaft portion 17. In this state, the guard member 21 can rotate within the range of the notch 20A of the rotation restricting member 20, that is, within the range of 90 ° between the guard position and the step position.

  As described above, in the embodiment, the guard support shaft 12 and the guard fixing shaft 17 are attached to the upper swing body 4, and the guard member using the guard support shaft 12 and the guard fixing shaft 17 21 is attached to the upper swing body 4. On the other hand, guard member 21 includes a frame 22 formed in a frame shape by a pipe material, and connection plates 23A, 23B, 23C formed of a plate material (plate material) and arranged in parallel to each other in frame 22. It consists of In this case, the guard member 21 is rotatably supported by the support cylindrical portion 14 of the guard support shaft portion 12, and the vertical direction with respect to the horizontal direction (guard position) centering on the support cylindrical portion 14. A guard position fixing cylindrical portion 25 and a step position fixing cylindrical portion 26 for keeping the posture of the guard member 21 at (step position) are provided.

  Here, the guard position fixing cylindrical portion 25 and the step position fixing cylindrical portion 26 are disposed at the same distances H2 and H3 from the rotation fitting cylindrical portion 24, respectively. Therefore, even if the guard member 21 is rotated by 90 °, the guard position fixing cylindrical portion 25 or the step position fixing cylindrical portion 26 can be supported by the fixed shaft 19 of the guard fixing shaft portion 17. Then, when the guard member 21 is disposed at the step position, the connecting portions 22C and 22D of the frame 22 and the connecting plates 23A, 23B and 23C can be used as steps.

  In order to rotate the guard member 21 from the guard position (FIGS. 1 and 2) to the step position (FIGS. 3 and 4), first, the fixing pin 27 is extracted from the pin holes 24A and 14A and the guard member 21 is pulled to the front (FIG. Move in the X direction of 9). When the guard member 21 is pulled forward, the direction in which the guard position fixing cylinder 25 separates from the fixed shaft 19 of the guard fixed shaft 17 while the corner 23A3 of the central connecting plate 23A of the guard member 21 enters the notch 20A. Move to At this time, the guard member 21 is prevented from rotating in the clockwise direction based on the contact between the step portion 20A1 of the notch 20A and the corner portion 23A3.

  Then, when the guard member 21 is completely moved to the front side, that is, when it is displaced in the X direction in FIG. 9 until the outer end of the rotary fitting cylindrical portion 24 abuts on the rotation restricting member 20, The cylindrical portion 25 is disengaged from the fixed shaft 19 of the guard fixed shaft portion 17, and the guard member 21 can be rotated by 90 ° counterclockwise along the notch 20A. When the corner 23A3 of the central connecting plate 23A of the guard member 21 abuts against the step 20A2 of the notch 20A with the counterclockwise rotation, the guard member 21 is prevented from further rotating in the counterclockwise direction. Be done.

  In this state, when the guard member 21 is pushed in the opposite direction to the X direction in FIG. 9, the step position fixing tubular portion 26 is fitted into the fixed shaft 19 of the guard fixed shaft portion 17. Finally, the fixing pin 27 is inserted into the pin holes 24B and 14A, and the stopper 28 is attached to the tip of the fixing pin 27 (engagement hole 27B). In this case, as shown in FIG. 5, the guard member 21 can be used as a step (insulator) to facilitate access to the fuel tank 10's fueling port (if necessary, the hydraulic oil tank 9's fueling port). .

  The hydraulic shovel 1 according to the embodiment has the above-described configuration, and its operation will be described next.

  When an operator boarding the cab 7 starts the engine, the engine drives a hydraulic pump. The pressure oil discharged from the hydraulic pump is supplied to the traveling lever and pedal operating device provided in the cab 7, the lever operation of the working lever operating device, and the traveling hydraulic motor, the turning hydraulic motor and the boom according to the pedal operation. It discharges toward cylinder 5D, arm cylinder 5E, work implement cylinder 5F, etc. Thus, the hydraulic shovel 1 can perform a traveling operation by the lower traveling body 2, a turning operation of the upper swing body 4, a gripping operation of wood by the front device 5, and the like.

  When working with the hydraulic shovel 1, the guard member 21 is fixed at the guard position. In this case, the upper swing body 4 can be protected by the guard member 21 from surrounding obstacles (for example, trees). When the work is completed, the operator shuts off the engine. Then, for example, when the fuel tank 10 (the hydraulic oil tank 9 as needed) is to be refueled, the guard member 21 is rotated from the guard position to the step position, and the guard member 21 is fixed to the step position. In this case, as shown in FIG. 5, the guard member 21 can be stepped to approach the fuel port of the fuel tank 10 (the hydraulic oil tank 9 as needed). Thereby, the fueling operation to the fuel tank 10 (the hydraulic oil tank 9 as necessary) can be easily performed.

  As described above, according to the embodiment, the outside of the right side frame 6F which is one of the left and right side frames 6E and 6F (that is, the side frame on the fuel tank 10 side as the oil storage tank) At the position, a guard member 21 is rotatably mounted at a position corresponding to the fuel tank 10. The guard member 21 is disposed above the lower traveling body 2 as a whole and extends in the front and rear directions to protect the fuel tank 10 (guard), and the upper swing body 4 and the lower traveling body 2 By extending upward and downward between the two, it is possible to switch to a step position which is a step for raising and lowering on the upper swing body 4.

  Therefore, when the guard member 21 is fixed at the guard position, the upper swing body 4 can be protected by the guard member 21 from surrounding obstacles (for example, trees). On the other hand, when the guard member 21 is fixed at the step position, the guard member 21 can be moved up and down to approach the fuel port of the fuel tank 10. Thus, the fueling operation to the fuel tank 10 can be easily performed. Moreover, when the guard member 21 is fixed at the step position, the position of the first step (one connecting portion 22C) from the bottom of the guard member 21 is lower than the upper surface of the crawler belt 2A of the lower traveling body 2 be able to. In other words, by setting the position of the first step (one connecting portion 22C) from below the guard member 21 lower than, for example, the position of the knee of a person, the raising and lowering operation can be easily performed. As a result, the upper swing body 4 can be easily moved up and down, and also from this aspect, the fueling operation to the fuel tank 10 can be easily performed.

  According to the embodiment, the guard support shaft 12 rotatably supporting the guard member 21 and the guard member 21 are fixed at the guard position and the step position on the right side frame 6F which is one side frame. A guard fixed shaft portion 17 is provided. On the other hand, the guard member 21 includes a rotary fitting cylinder 24 rotatably fitted to the guard support shaft 12 and a guard position fixing cylinder fitted to the guard fixed shaft 17 when the guard member 21 is at the guard position. It has a portion 25 and a step position fixing cylinder portion 26 fitted to the guard fixed shaft portion 17 when the guard member 21 is at the step position.

  Therefore, the guard member 21 can be moved to the guard position or the step position by rotating it around the guard support shaft 12 of the right side frame 6F. At this time, by fitting the guard position fixing tubular portion 25 of the guard member 21 to the guard fixing shaft portion 17 of the right side frame 6F, the guard member 21 can be stably fixed to the guard position. On the other hand, the guard member 21 can be stably fixed to the step position by fitting the step position fixing cylindrical portion 26 to the guard fixing shaft portion 17 of the right side frame 6F.

  According to the embodiment, the guard support shaft portion 12 is provided with the rotation restricting member 20 which restricts the rotation of the guard member 21 when the guard member 21 is rotated. Therefore, positioning of the guard member 21, that is, “positioning the guard member 21 in the guard position” and “positioning in the step position” can be easily performed by the rotation regulating member 20.

  According to the embodiment, the guard members 21 are disposed at predetermined intervals in the longitudinal direction of the pair of support portions 22A and 22B serving as a pair of support members extending in parallel with each other and the pair of support portions 22A and 22B The connecting portions 22C and 22D and the connecting plates 23A, 23B and 23C are provided as a plurality of connecting members for connecting between the support portions 22A and 22B. The rotary fitting cylindrical portion 24 is provided in one of the pair of support portions 22A and 22B at the middle portion in the longitudinal direction of the one support portion 22A, and the length is set. A guard position fixing cylindrical portion 25 is provided at one end side in the direction. Further, the other column 22B of the pair of columns 22A and 22B is provided with a step position fixing cylinder 26 at a middle portion in the length direction of the other column 22B.

  Therefore, when the guard member 21 is in the guard position, the connecting portions 22C, 22D and the connecting plates 23A, 23B, 23C can be used as a guard, while when the guard member 21 is in the step position, the connecting portion 22C, 22D and connecting plates 23A, 23B, 23C can be used as steps.

  According to the embodiment, all of the plurality of connecting members, that is, the treads 22F and 22F and the connecting plates 23A, 23B and 23C of the connecting portions 22C and 22D, the treads 22F and 22F and the connecting of the connecting portions 22C and 22D. There are provided female screw holes 22F1, 23A4, 23B1, and 23C1 for attaching an article to the plates 23A, 23B, and 23C.

  Therefore, for example, as in the first modified example shown in FIG. 10, a storage box 31 such as a tool box can be attached to the first connection plate 23B using a bolt (not shown). For example, the mounting base 32 for mounting various articles | goods, such as a chain saw and a carrying tank, can also be attached to the tread plate 22F of one connection part 22C using the volt | bolt 33. FIG. Further, as in the second modified example shown in FIG. 11, the mounting table 32 can be attached to the treads 22F and 22F of the connecting portions 22C and 22D by using the bolts 33. As a result, even at a site where only the hydraulic shovel 1 can be inserted in the mountain (ie, a site where a transport vehicle such as a truck can not be inserted), the hydraulic shovel 1 together with the storage box 31 such as a tool box etc., a chain saw, a carrying tank, etc. Can bring in various items.

  In the embodiment, female screw holes 22F1, 23A4, 23B1, and 23B1 for attaching an article to all of the plurality of connecting members, that is, the treads 22F and 22F and the connecting plates 23A, 23B and 23C of the connecting portions 22C and 22D. The configuration provided with the 23C1 has been described as an example. However, not limited to this, for example, a female screw hole may be provided in any of a plurality of connection members. That is, the female screw hole can be provided in at least one of the plurality of connecting members. Also, the female screw hole may be omitted.

  In the embodiment, the case where the guard support shaft portion 12 and the guard fixed shaft portion 17 are attached to the right side frame 6F using welding means has been described as an example. However, not limited to this, for example, the guard support shaft portion and the guard fixed shaft portion may be attached to the side frame using a fastener such as a bolt.

  In the embodiment, in the case where the guard member 21 is configured by the rectangular frame 22 and the three connection plates 23A, 23B, 23C, that is, the frame 22 corresponds to "the support portions 22A, 22B serving as support columns" The case where the connecting portions 22C and 22D, which become steps at the step position, is provided is described as an example. However, the present invention is not limited to this. For example, although illustration is omitted, the guard member may be a support plate made of a pair of rod-like members and five connections connecting these support members by using the connecting portion of the frame as a connecting plate. You may comprise by a board. Further, the number of connection members (connection parts, connection plates) is not limited to five, and may be increased or decreased as needed.

  In the embodiment, the case where the fuel tank 10 is provided outside the hydraulic oil tank 9 has been described as an example. However, the present invention is not limited to this, and for example, the hydraulic oil tank may be provided outside the fuel tank.

  In the embodiment, the hydraulic shovel 1 has been described by way of an example in which the two oil storage tanks of the fuel tank 10 and the hydraulic oil tank 9 are provided on the right side which is one side in the left and right directions. However, the present invention is not limited to this. For example, one oil storage tank (fuel tank or hydraulic oil tank) may be provided on one side in the left and right directions.

  In the embodiment, the hydraulic shovel 1 has been described by way of example in which the oil storage tank (fuel tank 10) is provided on the right side in the left and right directions. However, the present invention is not limited to this. For example, an oil storage tank (a fuel tank and / or a hydraulic oil tank) may be provided on the left side in the left and right directions.

  In the embodiment, the rear very small turning type (or rear small turning type) hydraulic shovel 1 has been described as an example. However, the present invention is not limited to this. For example, the present invention may be applied to a hydraulic shovel provided with a long upper swing body in the front and rear directions.

  In the embodiment, the configuration using the log grapple 5C as the attachment of the front device 5 of the hydraulic shovel 1 has been described as an example. However, the attachment is not limited to this, and various attachments including, for example, a bucket capable of excavating earth and sand can be used. That is, hydraulic excavators are not limited to forestry machines used at forestry work sites, but can be widely applied to various construction machines (swing type construction machines) used at work sites such as excavation, dismantling, underground work, etc. it can.

1 Hydraulic excavator (construction machine)
2 lower traveling body 4 upper swing body 5 front device 6 swing frame 6A bottom plate (center frame)
6B Left vertical plate (center frame)
6C Right vertical plate (center frame)
6E Left side frame 6F Right side frame (one side frame)
12 guard support shaft portion 17 guard fixed shaft portion 20 rotation restricting member 21 guard member 22A, 22B support portion (support)
22C, 22D connection part (connection member)
23A, 23B, 23C Connection plate (connection member)
22F1, 23A4, 23B1, 23C1 Female screw hole 24 Rotary fitting cylindrical portion 25 Guard portion fixing cylindrical portion 26 Step position fixing cylindrical portion 31 Storage box (article)
32 Mounting table (article)

Claims (5)

It consists of a self-propelled lower traveling unit and an upper revolving unit rotatably mounted on the lower traveling unit,
The upper swing body is a swing frame to which a front device is attached on the front side, and an oil storage tank provided on the swing frame, positioned on one side in the left and right directions sandwiching the front device, and storing oil or fuel. Equipped with
The pivot frame is a center frame having a bottom plate located at an intermediate portion in the left and right directions, and left and right side frames disposed on the left and right sides of the center frame and extending in the front and rear directions, respectively. And in construction equipment comprising
A guard member is rotatably mounted at a position corresponding to the oil storage tank at an outer position of one of the left and right side frames,
The guard member is disposed over a guard position for protecting the oil storage tank by being generally disposed above the lower traveling body and extending forward and backward, and between the upper swing body and the lower traveling body. A construction machine characterized by being switchable to a step position which is a step for raising and lowering on the upper swing body by extending upward and downward. The one side frame is provided with a guard support shaft portion for rotatably supporting the guard member, and a guard fixing shaft portion for fixing the guard member to the guard position and the step position,
The guard member has a rotary fitting cylinder portion rotatably fitted to the guard support shaft portion, and a guard position fixing cylinder portion fitted to the guard fixed shaft portion when the guard member is at the guard position. The construction machine according to claim 1, further comprising: a step position fixing cylinder portion fitted to the guard fixing shaft portion when the guard member is at the step position.   The construction machine according to claim 2, wherein the guard support shaft portion is provided with a rotation restricting member which restricts the rotation of the guard member when the guard member is rotated. The guard member includes a pair of columns extending in parallel with each other, and a plurality of connecting members disposed at predetermined intervals in the longitudinal direction of the pair of columns and connecting the pair of columns.
The rotary fitting cylindrical portion is provided on one of the pair of pillars at a middle portion in the lengthwise direction of the one pillar, and is located on one end side in the lengthwise direction The guard position fixing cylinder is provided,
The cylinder for fixing the step position is provided on the other of the pair of columns at a middle portion in the longitudinal direction of the other column. Construction machinery. The guard member includes a pair of columns extending in parallel with each other, and a plurality of connecting members disposed at predetermined intervals in the longitudinal direction of the pair of columns and connecting the pair of columns.
The construction machine according to claim 1, wherein at least one of the plurality of connecting members is provided with a female screw hole for attaching an article to the connecting member.

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