The present invention relates to construction machines, such as a hydraulic excavator provided with a gate lock device.
In general, a hydraulic excavator representative of a construction machine is provided with an automotive lower traveling structure, an upper revolving structure mounted on the lower traveling structure to be capable of revolving thereto and a working mechanism disposed on the front side of the upper revolving structure to be capable of lifting and tilting thereto. The hydraulic excavator carries out an excavating work of earth and sand or the like using the working mechanism while revolving the upper revolving structure.
A cab defining an operator's room therein is disposed in a front left side of the upper revolving structure. An operator's seat is disposed in the cab, and an operator sits on and goes out from the operator's seat through an entrance formed on a left side surface of the cab. Console devices provided with operating levers are arranged on both sides of the operator's seat in the left-right direction to control the revolving movement of the upper revolving structure and the movement of the working mechanism.
A gate lock device is disposed on the left console device, which is positioned on the entrance side, of the left and right console devices. The gate lock device is provided with a gate lock lever having an operating part which is operated by the operator, and the gate lock lever rotationally displaces between a lock position in which the operation by the operating lever is made invalid and an unlock position in which the operation by the operating lever is made valid (Patent Document 1).
Patent Document 1: Japanese Patent Laid-Open No. 2008-063889
The gate lock lever according to the conventional technology is attached on a support member through a shaft, and on a basis of the shaft as a rotation fulcrum, rotationally displaces between the lock position and the unlock position. A spring member is disposed to urge the gate lock lever to the lock position or the unlock position. When the gate lock lever is rotationally displaced to the lock position, the gate lock lever is retained in the lock position by the spring member. On the other hand, when the gate lock lever is rotationally displaced to the unlock position, the gate lock lever is retained in the unlock position by the spring member.
In this conventional technology, a switching position of the gate lock lever is not clear in appearance. That is, the switching position acts as a boundary to any one of the lock position and the unlock position to which the gate lock lever is urged by the urging member. In some cases, the operator releases his or her hand from the gate lock lever without rotating the gate lock lever to the lock position or the unlock position in a state of gripping the gate lock lever. In this case, the gate lock lever is possibly rotationally displaced by the spring member to one position of the lock position and the unlock position against an intent of the operator.
An object of the present invention is to provide a construction machine which can make a switching position of a gate lock lever clearly defined to certainly carry out an operation for switching the gate lock lever between a lock position and an unlock position thereof.
An aspect of the present invention is provided with a construction machine comprising:
a console device which is disposed on an entrance side of an operator's seat and includes an operating lever; and
a gate lock device disposed in the console device, wherein the gate lock device includes:
a gate lock lever which includes an operating part to be operated by an operator and rotates between a lock position for making an operation of the operating lever invalid and an unlock position for making the operation of the operating lever valid; and
an urging member for urging the gate lock lever to be rotated by the operating part toward the lock position or the unlock position, characterized in that:
on a basis of a switching position, in which the operating part is below an upper surface of the console device, as a boundary, the gate lock lever is switched toward any one of the lock position and the unlock position to which the gate lock lever is urged by the urging member;
when the operating part is in a position higher than the switching position, the urging member urges the gate lock lever to the lock position; and
when the operating part is in a position lower than the switching position, the urging member urges the gate lock lever to the unlock position.
According to the aspect of the present invention, the upper surface of the console device can be defined as a reference for determining the switching position of the gate lock lever. Therefore, the switching position of the gate lock lever can be clearly defined to certainly switch the gate lock lever to the lock position and the unlock position.
Hereinafter, an embodiment of the present invention will be in detail explained referring to the accompanying drawings by taking a case of being applied to a hydraulic excavator as an example. It should be noted that an explanation will be made of the present embodiment by defining a traveling direction of the hydraulic excavator as a front-rear direction and a direction perpendicular to the traveling direction of the hydraulic excavator as a left-right direction.
In the figure, a hydraulic excavator 1 representative of a construction machine is provided with a lower traveling structure 2 of a crawler type capable of self-traveling in the front-rear direction and an upper revolving structure 3 mounted on the lower traveling structure 2 to be capable of revolving thereto. The lower traveling structure 2 and the upper revolving structure 3 configure a vehicle body of the hydraulic excavator 1. A working mechanism 4 is disposed on the front side of the upper revolving structure 3 to be capable of lifting and tilting thereto. The hydraulic excavator 1 travels in a working site by the lower traveling structure 2, and carries out an excavating work of earth and sand or the like by tilting and lifting the working mechanism 4 while revolving the upper revolving structure 3.
The upper revolving structure 3 is provided with a revolving frame 5 as a base. A counterweight 6 is disposed on the rear side of the revolving frame 5 to act as a balance weight to the working mechanism 4. The revolving frame 5 is provided with mount equipment devices of an engine, a hydraulic pump, a heat exchanger and the like (none of them is shown) mounted thereon to be positioned on the front side of the counterweight 6. These mount equipment devices are covered with an exterior cover 7 disposed on the revolving frame 5. A cab 8 defining an operator's room therein is disposed on a front left side of the upper revolving structure 3.
The cab 8 is formed in a boxy shape to rise upward from the revolving frame 5 and the operator' room is defined in the cab 8. An entrance 8A for the operator to get in and out of the cab 8 and a door 8B for opening/closing the entrance 8A are arranged on a left side surface of the cab 8. A bottom side of the cab 8 is covered with a floor member 9. As shown in
The operator's seat 10 is disposed in the cab 8. As shown in
The left console device 11 is disposed on the entrance 8A-side in the cab 8, that is, on the left side of the operator's seat 10. As shown in
The left console frame 12 is attached on the left side of the operator's seat base 10A. The left console frame 12 is provided with a base attaching part 12A attached on the operator's seat base 10A of the operator's seat 10 and a main frame part 12B extending forward from the base attaching part 12A. A left armrest 13 is attached on a rear end side of the main frame part 12B and is designed for a left elbow of the operator who sits in the operator's seat 10 to be placed thereon. The left operating lever 14 and the gate lock device 19 are arranged on a front end side of the main frame part 12B. Further, a fixing pin 12C is disposed on an intermediate part of the main frame part 12B in the front-rear direction to project to a left lateral side from the main frame part 12B. The fixing pin 12C configures another-end side attaching part for attaching other end 22B of a spring member 22 which will be described later.
The left operating lever 14 is disposed on a front-end upper side of the main frame part 12B configuring the left console frame 12. The left operating lever 14, together with a right operating lever 25 which will be described later, are operated by the operator to control the revolving movement of the upper revolving structure 3 and the movement of the working mechanism 4. The left operating lever 14 includes a pilot valve of a pressure reduction-valve type (not shown) attached on the front end of the main frame part 12B, and a lever part 14A which extends upward from the pilot valve and is tilted in the front-rear direction and in the left-right direction by the operator.
The left console cover 15 is attached on the left console frame 12 and forms an outer shell of the left console device 11. The left console cover 15 covers the left console frame 12 configuring the left console device 11, the pilot valve (not shown) of the left operating lever 14, the gate lock device 19 and the like. The left console cover 15 is formed using a resin material having elasticity and includes an upper cover 16, a lateral cover 17, and a gate lock cover 18.
The upper cover 16 covers the left console frame 12 and the like from above. The upper cover 16 is disposed on the front side of the left console frame 12 (main frame part 12B), and is configured of a front cover part 16A and a rear cover part 16B. The front cover part 16A covers the pilot valve of the left operating lever 14 and the like from above. The rear cover part 16B rises downward from the rear end of the front cover part 16A and extends to the rear side. The upper cover 16 is attached on the main frame part 12B by using bolts (not shown) or the like. An upper surface 16C of the front cover part 16A configuring the upper cover 16 is disposed in a position higher than an upper surface of the rear cover part 16B (on the upper side in the upper-lower direction), and forms an upper surface of the left console device 11.
The lateral cover 17 is positioned on the lower side of the upper cover 16, and covers the left console frame 12 and the like in the front-rear direction and in the left-right direction. The lateral cover 17 includes a front cover part 17A disposed on the front side of the left console frame 12, and an inner cover part 17B and an outer cover part 17C extending to the rear side from the front cover part 17A. The front cover part 17A covers the left console frame 12, the pilot valve of the left operating lever 14 and the like from the front side. The inner cover part 17B covers the left console frame 12, the pilot valve of the left operating lever 14 and the like from a right lateral side (the operator's seat 10-side). The outer cover part 17C covers a front portion of the left console frame 12 from a left lateral side.
The gate lock cover 18 is attached on a left side surface of the lateral cover 17 (outer cover part 17C). The gate lock cover 18 covers a rotation center part 20A of the gate lock lever 20 which will be described later, the spring member 22 and the like from a left lateral side. It should be noted that
Next, an explanation will be made of the gate lock device 19 according to the present embodiment.
The gate lock device 19 is disposed in the left console device 11, which is on the entrance side of the operator's seat 10, of the left console device 11 and the right console device 24. The gate lock device 19 rotationally displaces between the unlock position as shown in
The gate lock lever 20 is attached on the front portion of the main frame part 12B configuring the left console frame 12 to be rotatable in the front-rear direction and in the upper-lower direction. The gate lock lever 20 is formed by a plate body extending in the front-rear direction in a state of being in the unlock position as shown in
The rotation center part 20A of the gate lock lever 20 is attached on the main frame part 12B of the left console frame 12 via a support shaft 21 as a rotation fulcrum. The gate lock lever 20 rotationally displaces around the support shaft 21 as the rotation fulcrum in response to the operation of the operating part 20C by the operator. The gate lock lever 20 rotationally displaces between the unlock position (position in
When the gate lock lever 20 is in the unlock position (position in
The rotation center part 20A of the gate lock lever 20 is provided with a movable pin 20D in a portion thereof separated from the support shaft 21. The movable pin 20D is disposed to project on the left lateral surface of the rotation center part 20A using means of welding or the like and rotates around the support shaft 21 together with the gate lock lever 20. The movable pin 20D configures a one-end side attaching part on which one end 22A of the spring member 22 which will be described later is attached.
The operating part 20C of the gate lock lever 20 is disposed at the opposite to the gate lever part 20B across the rotation center part 20A. The operating part 20C is operated by the operator to rotationally displace the gate lock lever 20 from the lock position to the unlock position or from the unlock position to the lock position. Here, a concave recess part 20E formed by recessing a left lateral surface of the operating part 20C in the operator's seat 10-side is disposed on the rear end of the operating part 20C in a state where the gate lock lever 20 is in the unlock position. The concave recess part 20E is configured such that the operator can certainly operate the operating part 20C by laying his or her hand on the concave recess part 20E.
The spring member 22 as an urging member is disposed between the main frame part 12B of the left console frame 12 and the rotation center part 20A of the gate lock lever 20. The spring member 22 is formed using a tension coil spring, for example. The one end 22A of the spring member 22 is attached on the movable pin 20D as the one-end side attaching part disposed to project on the rotation center part 20A. The other end 22B of the spring member 22 is attached on the fixing pin 12C as the other-end side attaching part disposed to project on the main frame part 12B of the left console frame 12. Accordingly, the tension force (spring force) of the spring member 22 acts all the time on the movable pin 20D disposed to project on the gate lock lever 20 (rotation center part 20A). Thereby, the gate lock lever 20 is all the time urged to the unlock position (position in
Here, a center of the support shaft 21 as the rotation fulcrum of the gate lock lever 20, a center of the movable pin 20D on which the one end 22A of the spring member 22 is attached and a center of the fixing pin 12C on which the other end 22B of the spring member 22 is attached will be focused attention on.
In the present embodiment, a position of the gate lock lever 20 as shown in
Accordingly, for example as shown in
In this case, as shown by a characteristic line A in
In this way, in the present embodiment when the gate lock lever 20 is positioned between the lock position and the unlock position as shown in
A gate lock switch 23 is positioned near the rotation center part 20A of the gate lock lever 20 to be attached on the main frame part 12B of the left console frame 12. The gate lock switch 23 is provided with a detection part 23A which is pressed by the rotation center part 20A when the gate lock lever 20 is rotationally displaced to the lock position.
In addition, when the gate lock lever 20 is rotationally displaced to the lock position, the detection part 23A of the gate lock switch 23 is pressed by the rotation center part 20A. Thereby, it is detected that the gate lock lever 20 is in the lock position, which makes the operations of the left operating lever 14 and the right operating lever 25 invalid. Thereby, the revolving movement of the upper revolving structure 3 and the movement of the working mechanism 4 are prohibited regardless of the operations of the left and right operating levers 14, 25. On the other hand, when the gate lock lever 20 is rotationally displaced to the unlock position, the detection part 23A is separated from the rotation center part 20A. Thereby, it is detected that the gate lock lever 20 is in the unlock position, which makes the operations of the left operating lever 14 and the right operating lever 25 valid. Thereby, the revolving movement of the upper revolving structure 3 and the movement of the working mechanism 4 are controlled in response to the operations of the left and right operating levers 14, 25.
The right console device 24 is disposed at the opposite to the left console device 11 in the left-right direction, that is, on the right side to the operator's seat 10 (refer to
The hydraulic excavator 1 according to the present embodiment has the configuration as described above, and hereinafter, an explanation will be made of an operation thereof.
An operator opens the door 8B of the cab 8, goes through the entrance 8A and gets in cab 8, and then, goes in front of the left console device 11 and sits on the seat 10B. Since at this time, the gate lock lever 20 of the gate lock device 19 is retained in the lock position (position in
Here, in the present embodiment the position where the height position of the uppermost part of the outer peripheral surface 20F in the operating part 20C configuring the gate lock lever 20 corresponds to the height position of the upper surface 16C of the upper cover 16 configuring the left console device 11 (left console cover 15) is set as the switching position of the gate lock lever 20. That is, when the operating part 20C of the gate lock lever 20 is below the upper surface 16C of the left console device 11 (the upper cover 16), the gate lock lever 20 is switched toward any one of the lock position and the unlock position to which the gate lock lever 20 is urged by the spring member 22. Accordingly, the operator can clearly recognize the switching position of the gate lock lever 20 in appearance on a basis of the upper surface 16C of the upper cover 16. Therefore, the operator can rotationally displace the gate lock lever 20 from the lock position to the unlock position by displacing the outer peripheral surface 20F of the operating part 20C in the gate lock lever 20 closer to the downward than the upper surface 16C of the upper cover 16.
In addition, in the present embodiment, the tension force F2 of the spring member 22 at the time the spring member 22 retains the gate lock lever 20 in the unlock position is set to be larger than the tension force F3 of the spring member 22 at the time the spring member 22 retains the gate lock lever 20 in the lock position. Therefore, it is possible to suppress vibrations at the operating of the hydraulic excavator 1 from being transmitted to the gate lock lever 20, enhancing durability of the gate lock device 19.
In addition, after finishing the excavating work and the like using the hydraulic excavator 1, the operator can rotationally displace the gate lock lever 20 from the unlock position to the lock position. Thereby, since the operations of the left and right operating levers 14, 25 and the like are made invalid, it is possible to prevent an erroneous operation due to an erroneous contact of the operator with the left and right operating levers 14, 25 and the like at the next excavating work.
Here, in a case of rotationally displacing the gate lock lever 20 from the unlock position to the lock position, the operating part 20C of the gate lock lever 20 retained in the unlock position is in a position lower than the upper surface 16C of the upper cover 16. Therefore, in some cases, the operator siting on the operator's seat 10 is difficult to visually contact the operating part 20C. On the other hand, in the present embodiment the concave recess part 20E is disposed on the operating part 20C of the gate lock lever 20. Therefore, the operator can easily recognize the operating part 20C by contacting the concave recess part 20E by his or her hand. The operator can certainly carry out the operation of rotationally displacing the gate lock lever 20 from the unlock position to the lock position.
In addition, for example, even in a case where the operator loses a balance at the time of rotationally displacing the gate lock lever 20 from the unlock position to the lock position, the operator lays his or her hand on the upper surface 16C of the upper cover 16, thereby making it possible to suppress the outer peripheral surface 20F of the operating part 20C from being pressed down to the position lower than the upper surface 16C of the upper cover 16 in error. As a result, it is possible to prevent the gate lock lever 20 from being switched from the lock position to the unlock position against the operator's intent.
In this way, in the hydraulic excavator 1 according to the present embodiment, the gate lock device 19 is disposed on the left console device 11 in the entrance 8A-side of the cab 8, and the gate lock device 19 includes the gate lock lever 20 which has the operating part 20C to be operated by the operator and is rotated between the lock position and the unlock position, and the spring member 22 urging the gate lock lever 20 to be rotated by the operating part 20C toward the lock position or the unlock position. On a basis of the switching position, in which the operating part 20C of the gate lock lever 20 is below the upper surface 16C of the left console device 11 (the upper cover 16), as the boundary, the gate lock lever 20 is switched toward any one of the lock position and the unlock position to which the gate lock lever 20 is urged by the spring member 22. When the operating part 20C is in the position higher than the switching position, the spring member 22 urges the gate lock lever 20 to the lock position, and when the operating part 20C is in the position lower than the switching position, the spring member 22 urges the gate lock lever 20 to the unlock position.
According to this configuration, the operator can clearly recognize the switching position of the gate lock lever 20 in appearance on a basis of the upper surface 16C of the upper cover 16. Accordingly, the operator can certainly carry out the operation of switching the gate lock lever 20 between the lock position and the unlock position.
In the present embodiment, the switching position is set to the height position of the upper surface 16C of the upper cover 16. When the operating part 20C of the gate lock lever 20 is in the high position lower than the upper surface 16C of the left console device 11 (upper cover 16), the spring member 22 urges the gate lock lever 20 to the unlock position. When the operating part 20C of the gate lock lever 20 is in the height position higher than the upper surface 16C of the left console device 11, the spring member 22 urges the gate lock lever 20 to the lock position.
According to this configuration, the gate lock lever 20 can certainly be rotationally displaced to the unlock position by displacing the operating part 20C of the gate lock lever 20 closer to the downward than the upper surface 16C of the upper cover 16. On the other hand, the gate lock lever 20 can certainly be rotationally displaced to the lock position by displacing the operating part 20C of the gate lock lever 20 closer to the upward than the upper surface 16C of the upper cover 16.
In the present embodiment, the spring member 22 has the one end 22A attached on the gate lock lever 20 and the other end 22B attached on the left console frame 12 (a member other than the gate lock lever 20 of the gate lock device 19). When the height position of the operating part 20C in the gate lock lever 20 corresponds to the height position of the upper surface 16C in the left console device 11, the movable pin 20D (one-end side attaching part) on which the one end 22A of the spring member 22 is attached is disposed on the straight line L-L to connect between the fixing pin 12C (other-end side attaching part) on which the other end 22B of the spring member 22 is attached and the support shaft 21 (rotation fulcrum) of the gate lock lever 20. According to this configuration, in the switching position of the gate lock lever 20 where the height position of the operating part 20C in the gate lock lever 20 corresponds to the height position of the upper surface 16C in the left console device 11, the centers of the movable pin 20D, the fixing pin 12C and the support shaft 21 line up on the straight line L-L. Therefore, it is possible to restrict the rotational displacement of the gate lock lever 20 around the support shaft 21 as the rotation fulcrum.
In the present embodiment, the tension force (urging force) F2 at the time the spring member 22 retains the gate lock lever 20 in the unlock position is set to be larger than the tension force (urging force) F3 at the time the spring member 22 retains the gate lock lever 20 in the lock position. According to this configuration, in a state where the gate lock lever 20 is retained in the unlock position, it is possible to suppress vibrations at the operating of the hydraulic excavator 1 from being transmitted to the gate lock lever 20, enhancing the durability of the gate lock device 19.
In the present embodiment the concave recess part 20E for the operator to contact by his or her hand is disposed on the operating part 20C of the gate lock lever 20. According to this configuration, for example, in a case of rotationally displacing the gate lock lever 20 from the unlock position to the lock position, the operator can easily recognize the operating part 20C by contacting the concave recess part 20E by his or her hand to certainly carry out the switching operation of the gate lock lever 20.
It should be noted that the embodiment shows as an example a case where the position where the uppermost part of the outer peripheral surface 20F in the operating part 20C disposed in gate lock lever 20 corresponds to the height position of the upper surface 16C in the upper cover 16 configuring the left console device 11 is set as the switching position of the gate lock lever 20. The present invention, however, is not limited thereto, and a position where the uppermost part of the outer peripheral surface 20F in the operating part 20C is lower than the upper surface 16C in the upper cover 16 may be set as the switching position of the gate lock lever 20.
In addition, the embodiment shows an example in which the cab 8 is disposed on the front left side of the upper revolving structure 3 and the gate lock device 19 is disposed on the left console device 11 positioned in the entrance 8A-side of the cab 8. However, the present invention is not limited thereto, and may be configured, for example such that a cab is disposed on a front right side of the upper revolving structure 3 and a gate lock device is disposed on a right console device positioned in an entrance side of this cab.
In addition, the embodiment shows as an example the hydraulic excavator 1 in which the cab 8 is disposed on the front left side of the upper revolving structure 3. However, the present invention is not limited thereto, and may be applied also to a hydraulic excavator provided with a canopy for covering an operator's seat from above instead of a cab, for example.
Further, the embodiment is explained by taking the hydraulic excavator 1 as an example of a construction machine. However, the present invention is not limited thereto, and may be widely applied also to other construction machines of hydraulic cranes and wheel loaders, for example.
Number | Date | Country | Kind |
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2020-031500 | Feb 2020 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2021/002316 | 1/22/2021 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2021/171853 | 9/2/2021 | WO | A |
Number | Name | Date | Kind |
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10329736 | Nomura | Jun 2019 | B2 |
Number | Date | Country |
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9-25650 | Jan 1997 | JP |
2001-40707 | Feb 2001 | JP |
2002070079 | Mar 2002 | JP |
2008-63889 | Mar 2008 | JP |
2015-117520 | Jun 2015 | JP |
2019-27099 | Feb 2019 | JP |
2019157433 | Sep 2019 | JP |
Entry |
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International Search Report (PCT/ISA/210) issued in PCT Application No. PCT/JP2021/002316 dated Apr. 6, 2021 with English translation (four (4) pages). |
Japanese-language Written Opinion (PCT/ISA/237) issued in PCT Application No. PCT/JP2021/002316 dated Apr. 6, 2021 (four (4) pages). |
Number | Date | Country | |
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20230038839 A1 | Feb 2023 | US |