JP2019210707A - Work machine - Google Patents

Abstract

To prevent operation defects due to foreign matter being caught and the breakage of members.SOLUTION: A work machine includes a traveling device; a revolving bearing that is attached to the traveling device and has an internal tooth gear on its inner peripheral side; a revolving frame that is supported on the traveling device via the revolving bearing rotatably about a vertical axis; a revolving motor attached to the revolving frame; a revolving pinion that engages with the internal tooth gear and is rotated by power from the revolving motor; a swivel joint disposed at the vertical axis; and a protective cover that is disposed on the inner peripheral side of the trajectory of the revolving pinion in the traveling device, and that prevents foreign matter from moving to the internal tooth gear side.SELECTED DRAWING: Figure 17

Description

  The present invention relates to a work machine such as a backhoe.

Conventionally, a working machine disclosed in Patent Document 1 is known.
The working machine disclosed in Patent Document 1 includes a turning frame supported on a traveling device so as to be capable of turning about a longitudinal axis through a turning bearing. A turning motor is attached to the turning frame, and a turning pinion is attached to the turning motor. The swing pinion meshes with an internal gear provided on the inner peripheral side of the swing bearing. When the turning pinion is rotationally driven by the turning motor, the turning pinion moves while meshing along the internal gear, thereby turning the turning frame. Further, a swivel joint is disposed at the vertical axis position.

JP 2017-66791 A

In the working machine disclosed in Patent Document 1, foreign substances such as dirt, pebbles, and dust that have fallen from between the swivel joint and the swivel frame are operated by being caught between the swivel pinion and the internal gear. There is a risk of failure or damage to the parts.
SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to prevent malfunctions and member damage caused by biting of foreign matter.

  A work machine according to an aspect of the present invention includes a travel device, a swing bearing attached to the travel device and having an internal gear on an inner peripheral side, and a vertical axis around the travel device via the swing bearing. A swivel frame supported in a swivelable manner, a swivel motor attached to the swivel frame, a swivel pinion that meshes with the internal gear and rotates by the power of the swivel motor, and is disposed at the center of the vertical axis. A swivel joint, and a protective cover that is disposed on the inner peripheral side of the trajectory of the swivel pinion in the traveling device and prevents foreign matter from moving to the internal gear side.

  According to the above configuration, the protective cover can prevent foreign matter from being caught between the turning pinion and the internal gear.

It is a side view of a working machine. It is a top view of a turning frame. It is a perspective view of a turning frame. It is a perspective view of a swing bracket. It is side surface sectional drawing of the state which connected the swing bracket to the support bracket. It is a top view of the upper part of a swing bracket. It is B1-B1 arrow sectional drawing of FIG. It is B2-B2 arrow sectional drawing of FIG. It is a perspective view of the upper part of the swing bracket of the state which has not penetrated the pin. It is a top view of the upper part of the swing bracket of the state which has not penetrated the pin. It is a top view which shows operation | movement of a flange. It is a figure which shows the other operation | movement of a flange. It is a top view which shows the modification of a control part. It is a perspective view of a traveling device. It is a perspective view of a traveling frame. It is a top view of the center part of a traveling frame. It is side surface sectional drawing of a swivel joint arrangement part. It is a top view of a protective cover arrangement part. It is a side view of a protective cover arrangement part. It is B3-B3 arrow sectional drawing of FIG. It is B4-B4 arrow sectional drawing of FIG. It is a disassembled perspective view of a protective cover. It is a top view which shows the relationship between a fixture and a joint attachment part. It is the perspective view which looked at the protective cover which concerns on the modification 1 from the left side. It is the perspective view which looked at the protective cover which concerns on the modification 1 from the right side. 10 is a perspective view of a protective cover according to Modification 2. FIG. 10 is a perspective view of a protective cover according to Modification 3. FIG. FIG. 10 is a plan view and a partial plan sectional view of a protective cover according to Modification 3. It is a side view of the protective cover which concerns on the modification 3. 10 is a partial front sectional view of a protective cover according to Modification 3. FIG. It is a perspective view of the protective cover which concerns on the modification 4.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings as appropriate.
First, the overall configuration of the work machine 1 will be schematically described.
FIG. 1 is a schematic side view showing an overall configuration of a work machine 1 according to the present embodiment. In the present embodiment, a backhoe that is a turning work machine is illustrated as the work machine 1.
As shown in FIG. 1, the work machine 1 includes a machine body (swivel base) 2, a traveling device 3, and a work device 4. A cabin 5 is mounted on the body 2. A driver's seat 6 is provided in the cabin 5. A canopy may be mounted instead of the cabin.

In the present embodiment, the front side (in the direction of arrow A1 in FIG. 1) of the driver seated on the driver's seat 6 of the work machine 1 is the front side, the rear side of the driver (in the direction of arrow A2 in FIG. 1) is the back side, and The left side (front side in FIG. 1) will be described as the left side, and the right side (back side in FIG. 1) of the driver will be described as the right side.
In addition, a horizontal direction that is a direction orthogonal to the front-rear direction K1 will be described as a body width direction K2 (see FIG. 2). The direction from the center in the width direction of the airframe 2 to the right or left will be described as the outside of the airframe. In other words, the outward direction of the aircraft is the direction in the aircraft width direction K2 and away from the center of the aircraft body 2 in the width direction. The direction opposite to the outside of the aircraft will be described as the inside of the aircraft. In other words, the in-machine direction is the direction in the body width direction K2 that approaches the center of the body 2 in the width direction.

  As shown in FIG. 1, the traveling device 3 includes a traveling frame 9 and a traveling mechanism 10. The traveling mechanism 10 is a crawler traveling mechanism. In other words, the traveling device 3 is a crawler traveling device. The traveling mechanism 10 is provided on the left side and the right side of the traveling frame 9. The traveling mechanism 10 includes an idler 10A, driving wheels 10B, a plurality of wheel 10C, an endless crawler belt 10D, and a traveling motor M1 including a hydraulic motor. The idler 10 </ b> A is disposed at the front portion of the traveling frame 9, and the drive wheels 10 </ b> B are disposed at the rear portion of the traveling frame 9. The plurality of rolling wheels 10C are provided between the idler 10A and the drive wheel 10B. The crawler belt 10D is wound around the idler 10A, the drive wheel 10B, and the wheel 10C. The travel motor M1 drives the drive wheels 10B to circulate and rotate the crawler belt 10D in the circumferential direction. A dozer device 7 is attached to the front portion of the traveling device 3.

The airframe 2 is supported on a traveling frame 9 via a turning bearing 8 so as to be turnable (rotate leftward and rightward) about a vertical axis (axis extending in the vertical direction). The center of the slewing bearing 8 is the center of rotation of the airframe 2. The center of rotation of the machine body 2 is referred to as a turning axis X1.
A motor E <b> 1 is mounted on the rear part of the body 2. The prime mover E1 is, for example, a diesel engine. The prime mover E1 may be a gasoline engine, an LPG engine or an electric motor, or may be a hybrid type having an engine and an electric motor.

As shown in FIGS. 2 and 3, the airframe 2 has a turning frame 21 serving as a skeleton.
The swivel frame 21 includes a swivel substrate (substrate) 22, a plurality of vertical ribs (first vertical ribs 23 </ b> L and second vertical ribs 23 </ b> R), and a support bracket (support member) 24. In addition, the turning frame 21 includes a bracket, a stay, and the like for attaching equipment, tanks, and other components mounted on the body 2.

The swivel board 22 is formed from a thick steel plate or the like and constitutes the bottom of the machine body 2. As shown in FIG. 1, the turning board 22 is supported on the traveling device 3 via the turning bearing 8 so as to be rotatable around the turning axis X <b> 1. In addition, a weight 25 is attached to the rear portion of the turning substrate 22 and a prime mover E1 is mounted.
As shown in FIGS. 2 and 3, the first vertical ribs 23 </ b> L and the second vertical ribs 23 </ b> R are members that reinforce the revolving substrate 22, and are provided extending from the front part to the rear part. The first vertical ribs 23L and the second vertical ribs 23R are erected on the revolving substrate 22 and are juxtaposed at intervals in the body width direction K2.

  The support bracket 24 is provided in front of the first vertical rib 23L and the second vertical rib 23R. The support bracket 24 is disposed at a position biased to the right from the center in the body width direction K <b> 2 of the revolving substrate 22. The support bracket 24 includes a first support portion (support wall portion) 24A made of a plate material and a second support portion 24B. The first support portion 24A is fixed to the front upper part of the first vertical rib 23L and the second vertical rib 23R by welding or the like. A pin insertion hole 26A is formed in the front portion of the first support portion 24A so as to penetrate in the vertical direction. The second support portion 24B is positioned below the first support portion 24A, and is fixed to the front lower portions of the first vertical ribs 23L and the second vertical ribs 23R and the turning substrate 22 by welding or the like. A pin insertion hole 26B is also formed in the front portion of the second support portion 24B so as to penetrate in the vertical direction.

A first opening 27 is formed in the front portion of the swivel board 22 and between the first vertical rib 23L and the second vertical rib 23R so as to penetrate in the vertical direction. The first opening 27 has a circular main hole 27A and a cutout hole 27B cut out from the main hole 27A so as to extend radially outward.
As shown in FIG. 3, a second opening 28 is formed in a vertically penetrating manner behind the first opening 27 in the turning substrate 22. The second opening 28 is formed in a circular shape, and a motor attachment portion 29 is provided around the second opening 28. A turning motor M2 composed of a hydraulic motor is attached to the motor attachment portion 29 (see FIG. 2). The turning motor M2 is a motor that rotationally drives the body 2 around the turning axis X1.

As shown in FIG. 1, a casting swing bracket (rotating member) 14 is attached to the support bracket 24 so as to be swingable about the vertical axis (left and right). The working device 4 is attached to the swing bracket 14.
As shown in FIG. 1, the work device 4 is a device capable of excavation work, and includes a boom 15, an arm 16, and a bucket (work tool) 17. The base of the boom 15 is pivotally attached to the swing bracket 14 so as to be rotatable about a horizontal axis (an axis extending in the body width direction K2). As a result, the boom 15 can swing up and down. The arm 16 is pivotally attached to the distal end side of the boom 15 so as to be rotatable about a horizontal axis. As a result, the arm 16 can swing back and forth or up and down. The bucket 17 is provided on the distal end side of the arm 16 so as to be able to perform a squeeze operation and a dump operation. The work machine 1 can be mounted with another work tool (hydraulic attachment) that can be driven by a hydraulic actuator instead of or in addition to the bucket 17. Examples of other working tools include a hydraulic breaker, a hydraulic crusher, an angle bloom, an earth auger, a pallet fork, a sweeper, a mower, and a snow blower.

  The swing bracket 14 is swingable by expansion and contraction of a swing cylinder C2 (see FIG. 2) provided on the right side of the body 2. The boom 15 is swingable by expansion and contraction of the boom cylinder C3. The arm 16 is swingable by the expansion and contraction of the arm cylinder C4. The bucket 17 is freely squeezed and dumped by expansion and contraction of a bucket cylinder (work implement cylinder) C5. The swing cylinder C2, the boom cylinder C3, the arm cylinder C4, and the bucket cylinder C5 are configured by hydraulic cylinders (hydraulic actuators).

As shown in FIGS. 4 and 5, the swing bracket 14 includes a main body portion 31, a boom connecting portion 32, a first cylinder connecting portion 33, a second cylinder connecting portion 34, and a pivot connecting portion 35. .
The main body portion 31 is configured by connecting a left side wall portion 31L and a right side wall portion 31R with a connecting wall portion 31A. The boom connecting part 32 is a part to which the base part of the boom 15 is pivotally connected. The boom connecting part 32 has a first part 32L provided at the upper part of the side wall part 31L and a second part 32R provided at the upper part of the side wall part 31R. A connecting pin 36 having an axial center in the body width direction K2 is provided across the first part 32L and the second part 32R. The base of the boom 15 is supported by the connecting pin 36 so as to be rotatable around the axis.

The first cylinder connecting portion 33 is provided in a front projecting shape at the front lower portion of the main body portion 31. A cylinder pin 37 is provided on the first cylinder connecting portion 33. One end side (bottom side) of the boom cylinder C3 is pivotally supported by the cylinder pin 37.
The second cylinder connecting portion 34 extends rightward from the lower portion of the side wall portion 31 </ b> R of the main body portion 31. The tip of the piston rod of the swing cylinder C2 is pivotally connected to the second cylinder connecting portion 34 via a cylinder pin 38.

  As shown in FIG. 5, the pivot connection portion 35 is provided so as to protrude rearward from the main body portion 31, and is pivoted around the vertical axis through the support bracket 24 via the first pin (pin) 39 </ b> A and the second pin 39 </ b> B. It is connected to be rotatable. The pivot connection portion 35 includes a first pivot support portion 41 provided at the upper portion of the main body portion 31 and a second pivot support portion 42 provided at the lower portion of the main body portion 31. The first pivotal support part 41 has a first wall (rotating wall part) 41A and a second wall 41B. The first wall 41A is provided above the second wall 41B with a space therebetween. A pin insertion hole 43A is formed in the first wall 41A so as to penetrate in the vertical direction. The second wall 41B is also formed with a pin insertion hole 43B penetrating in the vertical direction. The first support portion 24A of the support bracket 24 is inserted between the first wall 41A and the second wall 41B. The first wall 41A is overlaid on the first support portion 24A. The first pin 39A is inserted through a bush across the pin insertion hole 43A of the first wall 41A, the pin insertion hole 43B of the second wall 41B, and the pin insertion hole 26A of the first support portion 24A.

  The second pivotal portion 42 has a third wall 42A and a fourth wall 42B. The third wall 42A is provided above the fourth wall 42B with a space therebetween. A pin insertion hole 44A is formed in the third wall 42A so as to penetrate in the vertical direction. A pin insertion hole 44B is also formed in the fourth wall 42B in a vertically penetrating manner. The second support portion 24B of the support bracket 24 is inserted between the third wall 42A and the fourth wall 42B. The second pin 39B is inserted through the bush through the pin insertion hole 44A of the third wall 42A, the pin insertion hole 44B of the fourth wall 42B, and the pin insertion hole 26B of the second support portion 24B.

With the above configuration, the support bracket 24 swings through the pins (first pin 39A, second pin 39B) inserted vertically between the support bracket (support member) 24 and the swing bracket (rotating member) 14. The bracket 14 is pivotably supported.
As shown in FIG. 4, the first pin 39A is retained by a flange 46 fixed to the first pin 39A and a retaining member 47 that is inserted through the flange 46 and attached to the swing bracket 14 by screwing. Has been. As shown in FIG. 5, the second pin 39B is secured by a retaining pin 48 inserted through the second pin 39B and the third wall 42A.

  As shown in FIGS. 6 and 7, the flange 46 includes a base portion 49 that is fixed to the first pin 39 </ b> A and a protruding portion 50 that protrudes radially outward from the base portion 49 of the first pin 39 </ b> A. The base 49 has a hole 49A inserted through the first pin 39A, and is fixed to the upper end of the first pin 39A by welding or the like. The protruding portion 50 is formed so as to gradually narrow from the base portion 49 in the protruding direction. The protrusion 50 has an insertion hole 50 </ b> B formed in a vertically penetrating manner in the vicinity of the protrusion end 50 </ b> A that is an end on the protrusion side. Further, the protrusion 50 has a contact portion 51 including a first contact portion 51L and a second contact portion 51R. The first contact portion 51L is a portion on the one side (first rotation direction side) of the rotation direction around the first pin 39A (around the axis X2 of the first pin 39A) of the flange 46 (in the protruding portion 50) (for example, Left side). The second contact portion 51R is configured by a portion (for example, a right side portion) on the other side (second rotational direction side) in the rotational direction around the first pin 39A (in the protruding portion 50) of the flange 46. The shape of the flange 46 shown in FIGS. 6 and 7 is an example, and is not limited to this, and may be changed to other shapes.

  As shown in FIGS. 7 and 8, the retaining member 47 includes a collar 52, a first washer 53, a second washer 54, and a retaining bolt 55. The first washer 53 and the second washer 54 may be used as necessary, and one or both of the first washer 53 and the second washer 54 may be omitted. Further, a configuration for realizing the functions of the first washer 53 and / or the second washer 54 may be provided in a part of the retaining bolt 55, and the first washer 53 and / or the second washer 54 may be provided on the retaining bolt 55. It may be integrated. Further, a spring washer may be used as the first washer 53 and / or the second washer 54.

The collar 52 has a cylindrical shape and is vertically inserted through the insertion hole 50B. The lower end of the collar 52 is in contact with a processing surface 56 that is a surface on which the flange 46 of the first wall (rotating wall portion) 41A of the first pivotal support portion 41 comes into contact (places) in surface contact. Further, the upper portion of the collar 52 projects upward from the flange 46 (projecting portion 50).
The first washer 53 has a larger diameter than the insertion hole 50 </ b> B and is in contact with the upper surface of the collar 52. The second washer 54 is in contact with the upper surface of the first washer 53.

  The retaining bolt 55 has a screw shaft portion 55A and a head portion 55B. The screw shaft portion 55A is formed by cutting a male screw on the outer periphery of a cylindrical member. The retaining bolt 55 (screw shaft portion 55A) passes through the second washer 54, the first washer 53, and the collar 52, and is screwed into a screw hole 57 formed in the processing surface 56 (first wall 41A). . The screw hole is a hole in which a female screw is formed on the inner peripheral surface of a cylindrical hole.

When the retaining bolt 55 is screwed into the screw hole 57, the retaining tool 47 is screwed to the swing bracket 14. As a result, the upward movement of the flange 46 is restricted, and the first pin 39A is prevented from being pulled out.
As shown in FIG. 6, the restricting portion that restricts the rotation of the flange 46 around the first pin 39 </ b> A by the contact portion 51 of the flange portion 46 coming into contact with the upper surface of the first wall 41 </ b> A (swing bracket 14). 58 is provided.

  As shown in FIGS. 9 and 10, the restricting portion 58 includes a first part 58L with which the first contact part 51L abuts and a second part 58R with which the second contact part 51R abuts. The first portion 58L and the second portion 58R are formed together when the raised surface 59 formed on the swing bracket 14 is scraped to form the processed surface 56. Specifically, the first portion 58L and the second portion 58R are provided with a raised portion 59 that rises upward on the upper surface of the first wall 41A when the swing bracket 14 is formed by casting, and the raised portion 59 is shaved. It is comprised by the surface of the up-down direction formed together when forming the flat processed surface 56. FIG. That is, the first portion 58L and the second portion 58R are configured by a vertical surface that is continuous with the processing surface 56 and extends upward from the processing surface 56.

  As shown in FIG. 6, the protruding portion 50 of the flange 46 is placed on the processing surface 56 and in a portion sandwiched between the first portion 58L and the second portion 58R. The first portion 58L corresponds to (is opposed to) the first contact portion 51L in the horizontal direction. The second portion 58R corresponds to (opposites) the second contact portion 51R in the horizontal direction. As shown in FIG. 8, in a state where the center X3 of the insertion hole 50B and the center X4 of the collar 52 coincide (see FIG. 6), the gap S1 between the inner surface of the insertion hole 50B and the outer peripheral surface of the collar 52 is the first. It is larger than the gap S2 between the contact part 51L and the first part 58L and larger than the gap S3 between the second contact part 51R and the second part 58R.

  FIG. 11 shows a state where the first contact portion 51L is in contact with the first portion 58L. In this state, there is a gap S4 between the stopper 47 and the inner peripheral surface of the insertion hole 50B. FIG. 12 shows a state where the second contact portion 51R is in contact with the second portion 58R. Even in this state, there is a gap S5 between the retaining member 47 and the inner peripheral surface of the insertion hole 50B. That is, the first pin is brought into contact with the restricting portion 58 in a state where the gaps S4 and S5 are present between the outer peripheral surface of the collar 52 (the retaining member 47) and the inner peripheral surface of the insertion hole 50B. The rotation of the flange 46 around 39A is restricted. Accordingly, even when a force in a direction of rotating the first pin 39A about the axis X2 is applied to the first pin 39A during excavation work or the like, this force acts on the retaining member 47 via the flange 46. There is nothing. Therefore, it is possible to prevent torque reduction of the retaining bolt 55 (the retaining member 47) due to the flange 46 coming into contact with the collar 52.

  In the present embodiment, the first pin 39A is prevented from being removed by attaching the retaining bolt 55 (the retaining member 47) to the swing bracket 14 (rotating member) by screwing, but the present invention is not limited thereto. It is not limited. For example, the bifurcated support bracket 24 is provided, the swing bracket 14 is inserted between the bifurcated portions, and the contact portion 51 of the flange portion 46 contacts the upper surface of the support bracket 24. The first pin 39A may be prevented from being pulled out by attaching to the support bracket 24 (support member) with screws.

  As shown in FIGS. 9 and 10, the processing surface 56 is formed with a second placement surface 56 </ b> B that is continuous with the first placement surface 56 </ b> A on which the flange 46 is placed. A screw hole 61L is formed in the second placement surface 56B. A third placement surface 63 is formed on the right side of the second placement surface 56B. The third mounting surface 63 is also formed with a screw hole 62R. As shown in FIG. 4, the mounting plate 64 is placed over the second placement surface 56 </ b> B and the third placement surface 63. The mounting plate 64 is fixed to the first wall 41A by a bolt 62L screwed into the screw hole 61L and a bolt 62R screwed into the screw hole 61R.

As shown in FIG. 5, the mounting plate 64 constitutes a part of a bracket member 66 that supports the hose clamp 65. The hose clamp 65 is a member that supports the hydraulic hose routed to the work device 4 from the side of the machine body 2 through the space between the first support portion 24A and the second support portion 24B.
As shown in FIG. 6, an indicator portion 67 that indicates the orientation of the swing bracket 14 is provided at the rear of the upper surface of the swing bracket 14. The indicator portion 67 is a mark indicating that the swing bracket 14 faces straight forward (the swing bracket 14 is located at the center of the swing range to the left and right). In the state where the indicator portion 67 is directed rearward (the state shown in FIG. 6), the swing bracket 14 is directed straight forward.

  In addition, the contact part 51 and the control part 58 are not limited to the said structure. For example, as shown in FIG. 13, a restriction portion 58 may be provided in the index portion 67 and a contact portion 68 may be provided in the base portion 49 of the flange 46. The contact portion 68 is formed in a bifurcated shape sandwiching the index portion 67. In this case, one side surface (for example, the left side surface) of the index portion 67 is the first portion 58L of the restricting portion 58, and the other side surface (for example, the right side surface) of the index portion 67 is the second portion 58R of the restricting portion 58. The first contact portion 68L of the contact portion 68 is a surface facing the first portion 58L, and the second contact portion 61R is a surface facing the second portion 58R.

  However, as shown in FIG. 6, the distance from the axis X2 of the first pin 39A to the protruding end 50A (the part where the retaining member 47 is disposed) is the index X67 from the axis X2 of the first pin 39A. Farther away. Therefore, the amount of movement when the flange 46 rotates around the first pin 39 </ b> A is larger in the contact portion 51 provided in the protruding portion 50 than in the contact portion 68 provided in the base portion 49 of the flange 46. Therefore, when the contact portion 51 is provided at a position far from the axis X2 of the first pin 39A, the clearance between the contact portion 51 and the restricting portion 58 is a clearance between the inner surface of the insertion hole 50B and the outer peripheral surface of the collar 52. It is easy to manage the gap between the contact portion 51 and the restricting portion 58 for making it narrower than S1. Further, providing the contact portion on the protruding end portion 50A has an advantage that the shape of the flange 46 does not need to be changed.

  As shown in FIG. 14, the traveling frame 9 includes a center frame 71, a first side frame 72 </ b> L provided on the left side of the center frame 71, and a second side frame 72 </ b> R provided on the right side of the center frame 71. . The machine body 2 is rotatably supported by the center frame 71 via the swing bearing 8. The traveling mechanism 10 is equipped on the first side frame 72L and the second side frame 72R.

  As shown in FIGS. 14 and 15, the center frame 71 has a center frame portion 77 and four support legs 78 </ b> A to 78 </ b> D extending from the center frame portion 77. The central frame portion 77 has a top plate 79 that constitutes the upper surface of the central frame portion 77. The support legs 78A and 78B connect the center frame portion 77 and the first side frame 72L. The support legs 78C and 78D connect the center frame portion 77 and the second side frame 72R.

  As shown in FIG. 14, the slewing bearing 8 includes an outer ring 73, an inner ring 74 that is rotatably provided around the pivot axis X <b> 1 via a ball on the inner circumferential side of the outer ring 73, and an inner ring 74 on the inner circumferential side of the inner ring 74. And an internal gear 75 formed. As shown in FIG. 17, the outer ring 73 is bolted to the turning substrate 22. That is, the outer ring 73 is attached to the body 2. The inner ring 74 is bolted to the center frame 71. That is, the inner ring 74 is attached to the traveling device 3.

  As shown in FIG. 17, a turning pinion P1 is attached to the turning motor M2. The turning pinion P <b> 1 is disposed on the lower surface side of the turning substrate 22 through the second opening 28 and meshes with the internal gear 75. Further, the turning pinion P1 is driven by the turning motor M2 and rotates about the vertical axis. Therefore, when the turning pinion P1 is rotationally driven by the turning motor M2, the turning pinion P1 moves in the circumferential direction of the turning bearing 8 while meshing with the internal gear 75. As a result, the airframe 2 rotates around the turning axis X1.

  As shown in FIGS. 14-17, the swivel joint 76 is arrange | positioned in the position of the turning axis X1. The swivel joint 76 is a rotary joint that allows hydraulic oil to be supplied and discharged between the hydraulic actuator on the traveling device 3 side and the control valve on the machine body 2 side. The control valve is a valve unit in which the control valves that control the hydraulic actuators mounted on the work machine 1 are integrated.

  As shown in FIG. 17, the swivel joint 76 includes an outer sleeve 81, an inner shaft 82, and a mounting wall 83. The outer sleeve 81 is formed in a cylindrical shape and is disposed on the lower side of the turning substrate 22. The inner shaft 82 is inserted into the outer sleeve 81 so as to be rotatable about the vertical axis. The rotation axis of the inner shaft 82 and the turning axis X1 coincide. The upper part of the inner shaft 82 protrudes above the revolving substrate 22 through the first opening 27 (main hole 27A). On the upper surface of the inner shaft 82, an engaging member 84 that engages with the turning substrate 22 and rotates integrally with the turning substrate 22 is attached. Therefore, the inner shaft 82 rotates integrally with the turning substrate 22.

  The mounting wall 83 includes a first mounting wall 83A and a second mounting wall 83B. The first attachment wall 83 </ b> A and the second attachment wall 83 </ b> B are integrally formed on the upper portion of the outer sleeve 81. The first mounting wall 83A protrudes from the outer sleeve 81 in the horizontal direction (forward). The second mounting wall 83B protrudes from the outer sleeve 81 to the other (backward) direction opposite to the one. Note that at least one mounting wall 83 is sufficient.

  As shown in FIGS. 15 and 16, the engaging member 84 is formed of a plate material and protrudes from the upper surface of the inner shaft 82. The protruding portion of the engaging member 84 is formed in an inclined shape that moves downward as it goes outward in the radial direction of the swivel joint 76. The lower part of the protruding portion of the engaging member 84 is inserted into the notch hole 27B. As the engaging member 84 engages with the cutout hole 27 </ b> B, the inner shaft 82 rotates integrally with the turning substrate 22.

As shown in FIG. 15, an inner ring attachment portion 85 to which the inner ring 74 of the slewing bearing 8 is attached is provided on the top surface of the top plate 79. A plurality of bolt insertion holes 86 through which bolts for fixing the inner ring 74 are inserted are formed in the inner ring attachment portion 85 at intervals in the circumferential direction. The bolt insertion hole 86 is configured by an annular edge formed through the top plate 79.
As shown in FIG. 16, the top plate 79 (traveling device 3) has a joint attachment portion (wall portion on the traveling device 3 side) 87 to which the swivel joint 76 is attached. The joint mounting portion 87 protrudes from the inner peripheral side of the slewing bearing 8 toward the swivel joint 76 (see FIG. 14). Specifically, the joint mounting portion 87 extends in the horizontal direction from the inner peripheral edge 85a of the inner ring mounting portion 85 toward the turning axis X1. The joint attachment portion 87 includes a first wall portion 87A and a second wall portion 87B. The first wall portion 87A extends rearward from the front portion of the inner peripheral edge 85a of the inner ring attachment portion 85. The second wall portion 87 </ b> B extends forward from the rear portion of the inner peripheral edge 85 a of the inner ring attachment portion 85. The inner peripheral side of the inner ring attachment portion 85 is open. Specifically, the top plate 79 has an opening 88 constituted by the inner peripheral edge 85a of the inner ring attachment portion 85, the outer extension of the first wall portion 87A (the edge portion forming the outer shape), and the outer extension of the second wall portion 87B.

  As shown in FIGS. 16 and 17, the first mounting wall 83A is placed on the extended end side 87a (the pivot axis X1 side) of the first wall portion 87A. A second mounting wall 83B is placed on the extended end side 87a of the second wall portion 87B. 83 A of 1st attachment walls are attached to 87 A of 1st wall parts with a volt | bolt from the downward direction. The second attachment wall 83B is attached to the second wall portion 87B with a bolt from below.

  As shown in FIG. 18, the base portion 87b of the second wall portion 87B has a horizontal width (width in the machine body width direction K2) from the distal end portion (end portion on the swivel joint 76 side) of the joint mounting portion 87 to the proximal end. It is formed so as to gradually widen toward the portion (end on the inner ring mounting portion 8 side). Further, the left and right edges of the base portion 87b are formed in a curved shape that is recessed toward the inside of the machine body. The base portion 87b of the first wall portion 87A is also formed to gradually increase in width from the distal end portion toward the proximal end portion, and the left and right outer extensions of the base portion 87b are formed in a curved shape that is recessed toward the inside of the machine body. .

  In the working machine 1 of the present embodiment, between the swivel joint 76 and the swivel frame 21, specifically, between the first opening 27 of the swivel board 22 and the swivel joint 76 or the engaging member 84. Foreign matter such as soil, pebbles, and dust may fall. For example, when the foreign matter travels (rolls) on the joint mounting portion 87 and moves to the internal gear 75, the foreign matter may be caught between the internal gear 75 and the turning pinion P1. Therefore, in the present embodiment, as shown in FIGS. 15, 16, and 17, at least one protection that prevents foreign matter dropped from between the swivel joint 76 and the turning frame 21 from moving to the internal gear 75. A cover 91 is provided.

In the present embodiment, a plurality of protective covers 91 (first protective cover 91A and second protective cover 91B) are provided. The first protective cover 91A is attached to the first wall portion 87A, and the second protective cover 91B is attached to the second wall portion 87B. Since the first protective cover 91A and the second protective cover 91B have the same configuration, they will be described together.
As shown in FIGS. 18 to 22, the protective cover 91 includes a cover main body 92 and an attachment 93 for attaching the cover main body 92 to the joint attachment portion 87. The cover main body 92 is formed of an elastic member such as rubber. In this embodiment, the attachment 93 is made of metal (made of sheet metal).

  As shown in FIGS. 21 and 22, the cover main body 92 includes a mounting base 94 attached to the joint mounting portion 87 and a guard wall 95 extending upward from the mounting base 94. The mounting base 94 includes a mounting portion 94a, a first extending portion 94b extending downward from one side portion of the body width direction K2 of the mounting portion 94a, and the other side of the body width direction K2 of the mounting portion 94a. And a second extending portion 94c extending downward from the portion (see FIG. 20). The placement portion 94 a is placed on the attachment surface 87 c of the joint attachment portion 87. The attachment surface 87c is located on the distal end side of the base portion 87b (the side opposite to the connection end side connected to the inner ring attachment portion 85) and is adjacent to the attachment surface 87d to which the attachment wall 83 is attached. That is, the mounting portion 94a is adjacent to the mounting wall 83 in the horizontal direction. In other words, the mounting portion 94a is adjacent to the mounting wall 83 in the turning radial direction Y1. The turning radial direction Y1 refers to the radial direction of a turning circle that is a circle centered on the turning axis X1 (see FIG. 18).

Also, as shown in FIGS. 16 and 18, the mounting base 94 (mounting surface 87 c) is located outside the turning radius direction Y <b> 1 from the inner peripheral edge of the main hole 27 </ b> A of the first opening 27. As shown in FIG. 20, the base 87b is located between the first extension part 94b and the second extension part 94c. That is, the joint attachment portion 87 is sandwiched between the first extension portion 94b and the second extension portion 94c.
As shown in FIG. 20, the upper surface of the mounting portion 94a is a flat mounting surface 94d. As shown in FIG. 21, a restricting projection 94e is formed in the body width direction K2 at the end of the mounting surface 94d on the inner side in the turning radial direction Y1 (on the mounting wall 83 side).

  As shown in FIG. 22, the guard wall 95 is provided on the mounting base 94 over the body width direction K2. The guard wall 95 protrudes upward from the end of the upper surface of the mount 94 on the outer side in the turning radial direction Y1 (the side opposite to the restricting protrusion 94e). As shown in FIG. 18, the guard wall 95 is disposed on the inner peripheral side of the movement locus U1 of the turning pinion P1 (the inner side of the inner peripheral edge T1 of the movement locus U1) and is centered on the turning axis X1. It is formed in a curved shape. As shown in FIG. 21, the outer peripheral surface 95a of the guard wall 95 in the turning radial direction Y1 is formed continuously with the outer peripheral surface 94g of the mounting base 94 in the turning radial direction Y1. Therefore, the outer peripheral surface 94g of the mounting base 94 is also curved around the turning axis X1.

  As shown in FIG. 21, the outer peripheral surface 95a of the guard wall 95 and the outer peripheral surface 94g of the mounting base 94 are formed along the vertical direction. Further, the lower part of the guard wall 95 is formed so that the thickness (dimension in the turning radial direction Y1) gradually increases as it goes downward. In addition, an inner surface (referred to as a lower inner surface 95b) of the lower part of the guard wall 95 in the turning radial direction Y1 is formed in a curved shape in a side view. The lower inner surface 95b of the guard wall 95 is located below the outer end 27a in the turning radial direction Y1 of the notch hole 27B in a state where the notch hole 27B is located above the joint mounting portion 87. Accordingly, the foreign matter dropped from the gap between the notch hole 27B and the engaging member 84 is guided inward in the turning radial direction Y1 by the lower inner surface 95b.

  As shown in FIG. 18, the guard wall 95 is located between the inner peripheral edge T1 of the movement trajectory U1 of the turning pinion P1 and the outer peripheral edge T2 of the movement trajectory U2 of the notch hole 27b. Thereby, the guard wall 95 effectively prevents the foreign matter from moving to the internal gear 75 without interfering with the turning pinion P1. As in the present embodiment, the guard wall 95 may be positioned between the inner peripheral edge T1 and the outer peripheral edge T2, or the entire guard wall 95 may be positioned between the inner peripheral edge T1 and the outer peripheral edge T2. You may do it.

  As shown in FIGS. 20 and 22, the attachment 93 is jointed with the first member 96 that sandwiches the attachment base 94 (cover body 92) together with the joint attachment portion 87, and the attachment base 94 (cover body 92). And a second member 97 sandwiching the joint mounting portion 87. The first member 96 is disposed at a position corresponding to the cover main body 92. The first member 96 has a pressing portion 96a. The pressing portion 96a is formed in a long strip shape along the placement surface 94d, and is placed on the placement surface 94d and comes into surface contact with it. In addition, the holding portion 96 a sandwiches the mounting portion 94 a (mounting base 94) in cooperation with the joint mounting portion 87. The pressing portion 96a is restricted from moving inward in the turning radial direction Y1 by the restricting protrusion 94e (see FIG. 21).

  As shown in FIG. 20, the first member 96 includes a first extension piece 96b extending downward from one end portion of the pressing portion 96a and a second extension extending downward from the other end portion of the pressing portion 96a. And a piece 96c. The first extending piece 96b sandwiches the first extending portion 94b in cooperation with the joint mounting portion 87. The second extension piece 96c sandwiches the second extension portion 94c in cooperation with the joint attachment portion 87. The first member 96 includes a first attachment piece 96d that extends outward from the lower end of the first extension portion 94b and a second attachment that extends outward from the lower end of the second extension portion 94c. And a piece 96e. A nut 98L is fixed to the upper surface of the first mounting piece 96d. A nut 98R is also fixed to the upper surface of the second mounting piece 96e.

  As shown in FIG. 19, an upper portion 96k is formed along the vertical direction on the outer end of the first extending portion 94b in the turning radial direction Y1, and the swivel joint 76 is formed as the lower portion 96m goes downward. It is formed in an inclined shape that inclines in a direction away from. The lower part 96m is located below the turning pinion P1. The end of the second extending portion 94c on the outer side in the turning radial direction Y1 is also formed in the same manner.

  As shown in FIG. 22, the attachment 93 engages with the joint attachment 87 to restrict the movement of the attachment 93 toward the internal gear 75 (the first restriction portion 96g, the second restriction portion 96g). It has a restriction part 96h). The first restriction portion 96g extends from the inner end of the swivel diameter direction Y1 of the first extension piece 96b toward the inside of the machine body. The first restriction portion 96g is in contact with the first extension portion 94b. The second restriction portion 96h extends from the inner end of the second extending piece 96c in the turning radial direction Y1 toward the inside of the machine body. The second restricting portion 96h is in contact with the second extending portion 94c. A joint mounting portion 87 is located between the first restriction part 96g and the second restriction part 96h. In other words, the second restriction portion 96h sandwiches the base portion 87b of the joint mounting portion 87 in the width direction in cooperation with the first restriction portion 96g.

  As shown in FIG. 22, the second member 97 is formed in a strip shape and a flat plate shape that are long in the body width direction K2. As shown in FIG. 20, the second member 97 is in contact with the lower surface of the joint mounting portion 87, and sandwiches the joint mounting portion 87 in cooperation with the mounting portion 94 a (mounting base 94). The second member 97 protrudes from the joint mounting portion 87 on both sides in the longitudinal direction. One end 97a of the second member 97 is located below the first attachment piece 96d. The other end 97b of the second member 97 is located below the second attachment piece 96e. The one end 97a of the second member 97 and the first attachment piece 96d are fastened by a bolt 99L. The bolt 99L passes through the one end 97a and the first attachment piece 96d from below and is screwed (screwed) into the nut 98L. The other end 97b of the second member 97 and the second mounting piece 96e are fastened by a bolt 99R. The bolt 99R passes through the other end 97b and the second attachment piece 96e from below and is screwed into the nut 98R.

  Before the first member 96 and the second member 97 are fastened by the bolt 99L and the bolt 99R, as shown in FIG. 20, between the one end portion 97a and the first mounting piece 96d and between the other end portion 97b and the first member 97b. Between the two mounting pieces 96e, an interval (a crushing margin of rubber forming the mounting base 94) is provided. An interval is also provided between the first extension portion 94 b and the second extension portion 94 c and the joint attachment portion 87. In this state, when the first member 96 and the second member 97 are fastened by the bolt 99L and the bolt 99R, the mounting portion 94a is pressed against the joint mounting portion 87 by the pressing portion 96a. As a result, the protective cover 91 is attached to the joint attaching portion 87. At this time, the elastic deformation of the first extension portion 94b is restricted by the first extension piece 96b and the first restriction portion 96g, and the elasticity of the second extension portion 94c is restricted by the second extension piece 96c and the second restriction portion 96h. Deformation is regulated. As a result, the protective cover 91 can be securely attached to the joint attachment portion 87.

In the protective cover 91 of the above embodiment, for example, when the cover main body 92 is dropped due to damage or the like, as shown in FIG. 23, the first restricting portion 96g and the second restricting portion 96h are connected to the joint mounting portion 87. The movement of the fixture 93 toward the internal gear 75 side is regulated by engaging (abutting) with. Thereby, interference with the fixture 93 and turning pinion P1 can be prevented.
24 and 25 show a first modification of the protective cover 91. 24 and 25 show a protective cover 91 provided on the front side of the swivel joint 76. FIG. FIG. 24 is a view of the protective cover 91 as viewed from the left side. FIG. 25 is a view of the protective cover 91 as viewed from the right side (opposite side).

As shown in FIGS. 24 and 25, the protective cover 91 has a cover main body 92 and a fixture 103. The cover main body 92 has a mounting base 94 and a guard wall 95. The mounting base 94 has a columnar projection 94h on one side and a similar projection 94k on the other side. The fixture 103 includes a first member 104 and a second member 105.
The first member 104 is formed in an L shape having a first piece 104a that contacts the other side of the mounting base 94 and through which the protrusion 94k is inserted, and a second piece 104b that extends from the first piece 104a. Has been. A nut 106 is fixed on the second piece 104b.

  The second member 105 includes a lower wall 105a that contacts the lower surface of the joint mounting portion 87, and a vertical wall 105b that rises from one end of the lower wall 105a and contacts one side surface of the mounting base 94 and through which the protrusion 94h is inserted. It has an L shape. The other end of the lower wall 105a protrudes from the joint mounting portion 87 and is positioned below the second piece 104b. The first member 104 and the second member 105 are fastened by a bolt inserted through the other end portion of the lower wall 105a and the second piece portion 104b from below and screwed into the nut 106. Thereby, the protective cover 91 is attached to the joint attaching portion 87.

The protective cover 91 of this modification 1 is not provided with the restricting protrusion 94e of the above embodiment. In addition, a plurality of recesses 107 are provided on the outer surface in the turning radial direction Y1 to prevent or suppress the occurrence of so-called “sink marks”. Other configurations are substantially the same as those in the above embodiment.
FIG. 26 shows a second modification of the protective cover 91. Regarding the second modification, differences from the first modification will be described. In the fixture 103 of the protective cover 91 according to the second modified example, the first member 104 is formed in a flat plate shape that is long in the vertical direction, and the upper portion contacts the other side surface of the mounting base 94 and the projection 94k is inserted. Has been. A nut 106 is fixed to the lower part. The second member 105 has an extending wall 105 c that extends downward from the other end of the lower wall 105 a and faces the lower portion of the first member 104. The bolt that fastens the first member 104 and the second member 105 is inserted through the extending wall 105 c and the lower portion of the first member 104 and screwed into the nut 106.

Other configurations are the same as in the first modification.
27 to 30 show a third modification of the protective cover 91. The protective cover 91 of this modification 3 is made of sheet metal.
As shown in FIG. 27, the protective cover 91 according to the third modification includes a cover body 108 and an attachment piece 109. The cover body 108 has a guard wall 110 and a plurality of support legs (first support legs 111 and second support legs 112).

As shown in FIG. 28, the guard wall 110 is bent at the center in the body width direction K2, and is formed in a V-shape that is convex in the turning radial direction Y1. Thereby, the guard wall 110 is formed so that it may fit between the inner periphery T1 and the outer periphery T2. The guard wall 110 may be formed in a curved shape along the inner peripheral edge T1 and the outer peripheral edge T2.
As shown in FIG. 27, the first support leg 111 has a connection part 111a connected to one end of the guard wall 110 and a leg part 111b extending downward from the connection part 111a. The second support leg 112 has a connection part 112a connected to the other end of the guard wall 110 and a leg part 112b extending downward from the connection part 112a. As shown in FIG. 28, the leg portion 111b and the leg portion 112b are disposed so as to sandwich the joint mounting portion 87 from both sides in the body width direction K2.

As shown in FIG. 27, the mounting piece 109 is formed of a belt-like flat plate that is long in the body width direction K2, and a plurality of bolt insertion holes 112A and 112B are formed in a penetrating manner. The attachment piece 109 has one end fixed to the lower end of the first support leg 111 and the other end fixed to the lower end of the second support leg 112.
A screw hole 113A and a screw hole 113B are formed in the joint mounting portion 87 upward from the lower surface side.

  As shown in FIGS. 29 and 30, the protective cover 91 according to the third modification is provided on the distal end side of the joint mounting portion 87 so that the joint mounting portion 87 is inserted between the guard wall 110 and the mounting piece 109. It is fitted to the joint mounting portion 87 from (the inner side end portion in the turning radial direction Y1). As shown in FIG. 28, when the corner portion 111c of the leg portion 111b and the corner portion 112c of the leg portion 112b abut on the joint mounting portion 87, the movement of the protective cover 91 toward the internal gear 75 is restricted. As a result, the protective cover 91 is positioned so that the guard wall 110 fits between the inner peripheral edge T1 and the outer peripheral edge T2. In this state, as shown in FIG. 30, the bolt insertion hole 112A coincides with the screw hole 113A, and the bolt insertion hole 112B coincides with the screw hole 113B. Then, the bolt 114A is inserted into the bolt insertion hole 112A and screwed into the screw hole 113A, and the bolt 114B is inserted into the bolt insertion hole 112B and screwed into the screw hole 113B, whereby the protective cover 91 is connected to the joint mounting portion. 87 is attached.

The corner portions 111 c and the corner portions 112 c are position restricting portions that restrict the movement of the protective cover 91 toward the internal gear 75 side by engaging with the joint attaching portion 87.
Other configurations are the same as those in the above embodiment.
FIG. 31 shows a fourth modification of the protective cover 91. The protective cover 91 of this modification 4 is also made of sheet metal as in the modification 3.

The protective cover 91 according to Modification 4 includes a cover main body 116 and a plurality of attachment pieces (first attachment pieces 117A and second attachment pieces 117B). The cover main body 116 includes a guard wall 118 and a plurality of support legs (first support legs 119A and second support legs 119B).
The first attachment piece 117A extends inward from the lower end of the first support leg 119A. The second attachment piece 117B extends inward from the lower end of the second support leg 119B. 117A of 1st attachment pieces and the 2nd attachment piece 117B are mounted on the upper surface of the joint attachment part 87, and are fixed by welding. Other configurations are the same as those in the above embodiment.

The present embodiment has the following effects.
The work machine 1 is inserted through the support member (support bracket 24), the rotation member (swing bracket 14), the support member and the rotation member, and pivotally supports the rotation member so that the rotation member can rotate. A pin (first pin 39A), a flange 46 fixed to the pin, a collar 52 inserted through an insertion hole 50B formed in the flange 46, and the rotating member or the A retaining bolt 55 attached to the support member by screwing, a contact portion 51 provided on the flange 46, and a restriction portion 58 provided on the support member, and an inner peripheral surface of the collar 52 and the insertion hole 50B. When the contact portion 51 and the restriction portion 58 come into contact with each other with the gaps S4 and S5 between them, the rotation of the flange 46 around the pin is restricted.

According to this configuration, it is possible to prevent external force from acting on the retaining bolt 55 and prevent the torque of the retaining bolt 55 from being reduced.
The flange 46 includes a base 49 fixed to the pin, and a protrusion 50 protruding from the base 49 radially outward of the pin and having an insertion hole 50B. Is provided.

According to this configuration, it is easy to manage the gap between the contact portion 51 and the restricting portion 58.
The contact portion 51 includes a first contact portion 51L provided on the first rotation direction side around the pin in the flange 46 and a second contact portion 51R provided on the second rotation direction side around the pin. The restricting portion 58 includes a first portion 58L with which the first contact portion 51L abuts and a second portion 58R with which the second contact portion 51R abuts.

According to this configuration, movement in both directions around the pin of the flange 46 can be restricted.
Further, in a state where the center of the insertion hole 50B and the center of the collar 52 are substantially coincident with each other, the gap S1 between the inner surface of the insertion hole 50B and the outer peripheral surface of the collar 52 is a gap between the first contact portion 51L and the first portion 58L. It is larger than S2 and larger than the gap S3 between the second contact portion 51R and the second portion 58R.

According to this configuration, it is possible to prevent a decrease in torque of the retaining bolt due to the flange 46 coming into contact with the collar 52.
Further, the member to which the retaining bolt 55 is attached has a machining surface 56 with which the flange 46 comes into contact with the surface, and the first part 58L and the second part 58R are formed as surfaces that are continuous with the machining surface 56. .

According to this configuration, the restricting portion 58 can be formed at the same time as the processing surface 56 is formed, and the restricting portion 58 can be easily formed.
The support member has a support wall portion (first support portion 24A), the rotation member has a rotation wall portion (first wall 41A) superimposed on the support wall portion, and the pin rotates. The moving wall portion and the supporting wall portion are vertically inserted, the flange 46 is provided at the upper end portion of the pin and abuts on the upper surface of the rotating wall portion, and the insertion hole 50B penetrates the flange 46 in the vertical direction. The retaining bolt 55 is screwed into a screw hole 57 formed in the rotating wall portion.

According to this configuration, torque reduction of the retaining bolt 55 can be effectively prevented.
Further, the traveling device 3, the revolving substrate 22 supported on the traveling device 3 so as to be pivotable about the longitudinal axis and having a support member fixed to the front portion, and the pivoting member are pivotally supported so as to be swingable up and down. It is preferable to employ the working machine 1 equipped with the working device 4.
In addition, the work machine 1 includes a traveling device 3, a swing bearing 8 attached to the traveling device 3 and having an internal gear 75 on the inner peripheral side, and the traveling device 3 via the swing bearing 8 around the longitudinal axis. A swivel frame 21 supported so as to swivel, a swivel motor M2 attached to the swivel frame 21, a swivel pinion P1 that meshes with the internal gear 75 and rotates by the power of the swivel motor M2, and a vertical axis position. And a protective cover 91 that is arranged on the inner peripheral side of the movement locus U1 of the turning pinion P1 in the traveling device 3 and prevents foreign matter from moving toward the internal gear 75 side. Yes.

According to this configuration, the protective cover 91 can prevent foreign matter from being caught between the turning pinion P <b> 1 and the internal gear 75.
Further, a part (inner shaft 82) of the swivel joint 76 is provided with an engaging member 84 that engages with a notch hole 27B provided in the revolving frame and rotates integrally with the revolving frame 21, and the protective cover 91 is revolved. Guard walls 95, 110, and 118 are provided between the inner peripheral edge T1 of the movement locus U1 of the pinion P1 and the outer peripheral edge T2 of the movement locus U2 of the notch hole 27B to prevent the movement of foreign matter.

According to this configuration, the movement of the foreign matter falling from between the engagement member 84 and the cutout hole 27B toward the internal gear 75 can be effectively prevented by the guard walls 95, 110, and 118.
The traveling device 3 has a joint mounting portion 87 that protrudes from the inner peripheral side of the slewing bearing 8 toward the swivel joint 76 side and to which the swivel joint 76 is attached. The protective cover 91 is attached to the joint mounting portion 87. It is done.

According to this configuration, the movement of the foreign matter moving along the joint mounting portion 87 to the internal gear 7 side 5 can be effectively stopped.
The protective cover 91 includes a cover main body 92 and attachments 93 and 103 for attaching the cover main body 92 to the joint attachment portion 87 by sandwiching the cover main body 92 and the joint attachment portion 87.

According to this configuration, the protective cover 91 can be easily attached to the joint attaching portion 87 by retrofitting.
In addition, the fixture 93 includes a joint mounting portion 87 and a first member 96 disposed on one side of the cover main body 92, and a second member 97 disposed on the other surface. The cover main body 92 is formed of an elastic member, and is attached by being pressed against the joint attaching portion 87 by fastening the first member 96 and the second member 97 together.

According to this configuration, the protective cover 91 can be securely attached to the joint attachment portion 87.
The attachment 93 has a movement restricting portion that restricts the movement of the attachment 93 toward the internal gear 75 by engaging with the joint attachment 87.
According to this configuration, interference between the fixture 93 and the turning pinion P1 can be prevented.

  The base portion 87b of the joint mounting portion 87 is formed to be gradually wider from the distal end portion to the base end portion of the joint mounting portion 87, and the movement restriction portion includes the first restriction portion 96g and the first restriction portion 96g. And a second restricting portion 96h that sandwiches the base portion 87b of the joint attaching portion 87 in the width direction, and the attachment 93 has a first restricting portion 96g and a second restricting portion 96h, the base portion 87b of the joint attaching portion 87. Movement toward the internal gear 75 side is restricted.

According to this structure, a movement control part can be comprised easily.
The swivel joint 76 has a mounting wall 83 that protrudes from the swivel joint 76 and is attached to the joint mounting portion 87 so as to be overlapped. The protective cover 91 is provided on the protruding end of the mounting wall 83 and the swivel bearing 8. It is attached to the joint attaching part 87 between the inner peripheral side.

According to this configuration, the mounting wall 83 can be used as a restricting member that restricts movement of the protective cover 91 toward the swivel joint 76.
Further, the protective cover 91 includes mounting pieces 109, 117A, and 117B that are attached to the joint mounting portion 87 by bolts or welding.
According to this configuration, the configuration of the protective cover 91 can be simplified.

The protective cover 91 includes a mounting piece 109 attached to the joint mounting portion 87 with a bolt, and a position regulating portion that regulates the movement of the protective cover 91 toward the internal gear 75 by engaging with the joint mounting portion 87. 111c, 112c.
According to this configuration, it is possible to prevent the protective cover 91 from interfering with the turning pinion P1. Further, for example, the protective cover 91 can be positioned at the attachment position.

  Although one embodiment of the present invention has been described above, it should be considered that the embodiment disclosed this time is illustrative and not restrictive in all respects. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

DESCRIPTION OF SYMBOLS 1 Work implement 3 Traveling device 8 Rotating bearing 21 Rotating frame 27B Notch hole 75 Internal gear 76 Swivel joint 81 Outer sleeve 82 Inner shaft 83 Mounting wall 84 Engaging member 87 Joint mounting part 87b Base 91 Protective cover 93 Mounting tool 95 Guard Wall 96 1st member 96g 1st control part (movement control part)
96h Second restriction part (movement restriction part)
97 Second member 103 Attachment 109 Attachment piece 110 Guard wall 111c Position restriction part 112c Position restriction part 114A Bolt 114B Bolt 118 Guard wall 117A Attachment piece 117B Attachment piece M2 Turning motor P1 Turning pinion T1 Inner edge T2 Outer edge U1 Movement locus U2 Movement trajectory

Claims (10)

A traveling device;
A slewing bearing attached to the traveling device and having an internal gear on the inner peripheral side;
A swing frame supported by the travel device so as to be pivotable about a vertical axis through the swing bearing;
A turning motor attached to the turning frame;
A turning pinion that meshes with the internal gear and rotates by the power of the turning motor;
A swivel joint disposed at the longitudinal axis position;
A protective cover that is disposed on the inner peripheral side of the trajectory of the turning pinion in the traveling device and prevents foreign matter from moving to the internal gear side;
Work machine equipped with. An engagement member that engages with a notch hole provided in the swivel frame and rotates integrally with the swivel frame is provided in a part of the swivel joint,
The said protective cover has a guard wall which is located between the inner periphery of the movement locus | trajectory of the said turning pinion, and the outer periphery of the movement locus | trajectory of the said notch hole, and prevents the movement of the said foreign material. Working machine. The traveling device has a joint mounting portion that protrudes from the inner peripheral side of the slewing bearing toward the swivel joint side and to which the swivel joint is attached,
The working machine according to claim 1, wherein the protective cover is attached to the joint attachment portion. The protective cover is
A cover body;
The work machine according to claim 3, further comprising: an attachment that attaches the cover body to the joint attachment portion by sandwiching the cover body and the joint attachment portion. The fixture includes a first member disposed on one surface side of the joint mounting portion and the cover body disposed on top of each other, and a second member disposed on the other surface side,
The work machine according to claim 4, wherein the cover body is formed of an elastic member, and is pressed and attached to the joint attachment portion by fastening the first member and the second member.   The work implement according to claim 4 or 5, wherein the fixture includes a movement restricting portion that restricts movement of the fixture toward the internal gear side by engaging with the joint attaching portion. The base part of the joint mounting part is formed so as to gradually increase from the distal end part to the base end part of the joint mounting part,
The movement restricting portion includes a first restricting portion and a second restricting portion that sandwiches the base portion of the joint mounting portion in the width direction in cooperation with the first restricting portion,
The work implement according to claim 6, wherein movement of the attachment to the internal gear side is restricted when the first restriction portion and the second restriction portion are in contact with a base portion of the joint attachment portion. The swivel joint has a mounting wall that protrudes from the swivel joint and is mounted on the joint mounting portion.
The work machine according to any one of claims 3 to 7, wherein the protective cover is attached to the joint attachment portion between a protruding side end portion of the attachment wall and an inner peripheral side of the swing bearing.   The work machine according to claim 3, wherein the protective cover includes an attachment piece attached to the joint attachment portion by a bolt or welding. The protective cover is an attachment piece attached to the joint attachment portion by a bolt;
The work machine according to claim 3, further comprising a position restricting portion that restricts movement of the protective cover toward the internal gear side by engaging with the joint attaching portion.

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