JP2009287281A - Truck loader - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a truck loader which can prevent pilot hoses or other members of a machine body frame from being damaged or broken due to contact or interference of the pilot hoses with the other members, and can minimize the number of component parts for clamping the pilot hoses arranged in a cabin in a manner facing to the machine body frame and the number of guide members for guiding the pilot hoses. <P>SOLUTION: According to the structure of the truck loader, the cabin is rockably supported so as to assume a mounted state and tilted state, and a hydraulic control device is mounted in the machine body frame, followed by arranging operating levers for operating pilot pressure of the hydraulic control device, in the cabin. Then an air conditioner body is located at a laterally central location on a rear side of the cabin, and pilot hose relay members are arranged on both right and left sides of the air conditioner body. The relay members are mounted on the machine body frame, and the pilot hoses are connected together via the relay members at a location between the operating levers in the cabin and the hydraulic control device in the machine body frame. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

    The present invention relates to a truck loader.

  Conventionally, the base side of the boom is swingably supported on the rear part of the body frame so that the tip side of the boom moves up and down on the front side of the body frame. A boom cylinder for raising and lowering the boom is provided, the cabin is mounted on the fuselage frame, the cabin is mounted on the fuselage frame, and the bottom side of the cabin is placed on the fuselage frame, and the bottom side of the cabin is the fuselage frame Some of them are supported swingably in a lying state separated from the upper side, a hydraulic control device is provided on the body frame side, and an operation lever for operating the pilot pressure of the hydraulic control device is provided on the cabin side (For example, patent document 1).

In this type of conventional truck loader, a pilot hose relay member is provided on the bottom plate of the cabin, and the pilot hose is connected via a relay member between the operation lever on the cabin side and the hydraulic control device on the aircraft frame side. (For example, Patent Document 1).
JP 2002-121768 A

  However, conventionally, since there was a relay member on the bottom plate of the cabin, when the cabin is swung forward and placed, the pilot hose between the relay member and the hydraulic control device swings downward greatly. Therefore, there is a possibility that the pilot hose and other members may be damaged or broken due to the pilot hose contacting or interfering with other members on the body frame side. In addition, since a large number of parts for clamping the pilot hose disposed toward the body frame 1 side and a guide member for guiding are required on the cabin side, a large number of assembly steps and parts are required. was there.

  In view of the above problems, the present invention prevents the pilot hose between the relay member and the hydraulic control device from greatly swinging downward even when the cabin is placed, so that the pilot hose Parts for clamping the pilot hose that is arranged on the cabin side toward the aircraft frame side, and can prevent the pilot hose or other members from being damaged or broken by contacting or interfering with other members And a small number of guide members for guiding.

The technical means of the present invention for solving this technical problem is such that the base side of the boom is supported on the rear side of the body frame so that the front end side of the boom moves up and down on the front side of the body frame. A boom cylinder for moving the boom up and down is provided between the side and the rear part of the fuselage frame, the cabin is mounted on the fuselage frame, and the cabin is mounted on the fuselage frame with the cabin on the bottom side Operation and the bottom side of the cabin are swingably supported in a lying state that is spaced upward from the fuselage frame, a hydraulic control device is provided on the fuselage frame side, and an operation for operating the pilot pressure of the hydraulic control device on the cabin side In a truck loader provided with a lever,
An air conditioner body is provided at the center of the rear side of the cabin in the left-right direction. Pilot hose relay members are provided on both the left and right sides of the air conditioner body. These relay members are attached to the fuselage frame side. The pilot hose is connected to the hydraulic control device via the relay member.

Another technical means of the present invention is that a support shaft serving as a swing fulcrum of the cabin is disposed on the back side of the cabin so as to be positioned in the vicinity of the relay member.
Further, according to another technical means of the present invention, a plurality of guide rods for guiding the pilot hose are provided on the cabin side, and the pilot hoses drawn out from the cabin are alternately arranged on the plurality of guide rods. It is in the point which is sent out to the relay member side, giving slack after being hooked.
According to another technical means of the present invention, a lower back wall that is immersed forward is provided at the lower rear end of the cabin, and a closing member is provided on the rear side of the lower back wall. An air conditioner storage is formed between the air conditioner and the air conditioner main body is stored in the air conditioner storage.

Further, another technical means of the present invention includes a pair of left and right traveling devices driven by a hydraulic traveling motor, and a traveling hydraulic control device that controls driving of the traveling motor is provided on the side of the body frame. A traveling operation lever for operating the pilot pressure of the traveling hydraulic control device is provided therein, and a plurality of traveling pilot hoses connect the relay member between the traveling operation lever and the traveling hydraulic control device. It is in the point which is connected through.
Further, according to another technical means of the present invention, a bucket is provided at the tip of the boom, and a bucket cylinder for squeezing and dumping the bucket is provided, and the boom cylinder and the bucket cylinder are provided on the body frame side. A work control valve for driving control is provided, a work operation lever for operating the pilot pressure of the work control valve is provided in the cabin, and a plurality of work control valves are provided between the work control lever and the work control valve. The working pilot hose is connected through the relay member.

In addition, another technical means of the present invention includes a pair of left and right traveling devices driven by a hydraulic traveling motor, a bucket is provided at the tip of the boom, and the bucket is squeezed and dumped. A bucket cylinder is provided,
On the body frame side, a traveling hydraulic control device for driving and controlling the traveling motor, and a work control valve for driving and controlling the boom cylinder and the bucket cylinder are provided,
A travel operation lever for operating the pilot pressure of the travel hydraulic control device and a work operation lever for operating the pilot pressure of the work control valve are provided separately to the left and right of the driver seat in the cabin. ,
A plurality of traveling pilot hoses for connecting the traveling operating lever and the traveling hydraulic control device, and a plurality of working pilot hoses for connecting the working operating lever and the working control valve are the pair of left and right relay members. It is in the point that it is arranged with respect to.

  According to the present invention, the air conditioner body is provided at the center in the left-right direction on the back surface of the cabin, and the relay members for the pilot hose are provided on both the left and right sides of the air conditioner body. These relay members are attached to the fuselage frame side, Since the pilot hose is connected between the operation lever and the hydraulic control device on the machine body frame via the relay member, the pilot hose between the relay member and the hydraulic control device can be used even when the cabin is placed. Can be prevented from swinging downward, and the pilot hose and other members can be prevented from being damaged or broken due to the pilot hose coming into contact with or interfering with other members on the body frame side. In addition, since the relay member is attached to the fuselage frame side, the relay member will not move relative to the fuselage frame even if the cabin is swung around the support shaft, and it is arranged on the cabin side toward the fuselage frame side. The number of parts for clamping the pilot hose and the guide member for guiding can be reduced, and the number of assembly steps and the number of parts are also reduced. In addition, the air conditioner body can be stored using the dead space on the back of the cabin, and the relay member can also be arranged using the dead spaces on the left and right sides of the air conditioner body. There is no hindrance to work or driving with a truck loader.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 and 2, the truck loader according to the present invention includes a body frame 1, a loader work device (excavation work device) 2 attached to the body frame 1, and a pair of left and right traveling devices 3 that support the body frame 1. The cabin 4 is mounted on the front side of the body frame 1.
3-5, the body frame 1 is comprised by the iron plate etc., and is formed in the box shape which the upper end which has the bottom wall 6, the left-right paired side wall 7, and the front wall 8 opened. The upper edge of the rear end portion of the pair of left and right side walls 7 is formed in an arc shape that gradually goes downward as it goes rearward, and a bent edge portion 7 a that protrudes outward in the left and right direction is provided at the upper end of the pair of left and right side walls 7. ing. A bent edge 8 a protruding rearward is provided at the upper end of the front wall 8.

A pair of left and right support frames 11 are provided at the rear of the machine body frame 1. The pair of left and right support frames 11 are formed in a U-shape having an inner wall 12, an outer wall 13, and a connecting wall 14 that connects the rear end of the inner wall 12 and the front end of the outer wall 13. .
A mounting plate 16 curved in an arc shape is fixed to the upper end of the rear end portion of the side wall 7 by welding or the like, and the front end portion of the mounting plate 16 is superposed and fixed to the rear end portion of the bent edge portion 7a of the side wall 7 by welding or the like. ing. The outer side of the mounting plate 16 protrudes outward from the upper end of the side wall 7, and the bent edge 7 a of the side wall 7 and the mounting plate 16 constitute a fender 17 that covers the upper side and the rear side of the traveling device 3. Yes. The front side lower ends of the inner side wall 12 and the outer side wall 13 of the pair of left and right support frame bodies 11 are respectively fixed to the mounting plate 16 by welding or the like. Are connected and fixed to the side walls 7 respectively. The upper portions of the inner side wall 12, the outer side wall 13, and the connecting wall 14 of the pair of left and right support frame bodies 11 protrude upward from the side wall 7.

The upper portions of the inner side walls 12 of the pair of left and right support frame bodies 11 are connected by a horizontal connecting member 19. The lateral connecting member 19 includes a portal-shaped front wall plate 20 and an upper wall plate 21 protruding rearward from the upper end of the front wall plate 20. The support bracket 22 is projected upward. Each of the pair of left and right support brackets 22 has a pair of left and right support plates 23, and a front mounting hole 24 and a rear locking hole 25 penetrating left and right are provided in each support plate 23.
The lower ends of the pair of left and right support frame bodies 11 are connected by a reinforcing plate 27 and a lower connecting plate 28. The reinforcing plate 27 and the lower connecting plate 28 are fixed to each other by welding or the like, the reinforcing plate 27 is connected and fixed to the bottom wall 6 of the body frame 1 by welding or the like, and both ends of the reinforcing plate 27 and the lower connecting plate 28 are paired. The support frame body 11 is fixed to the inner wall 12 or the connection wall 14 of the support frame body 11 by welding or the like, and the pair of left and right support frame bodies 11 are connected to the bottom wall 6 via the reinforcing plate 27 and the lower connection plate 28. .

A first mounting boss 32 having a mounting hole is provided between the inner side wall 12 and the outer side wall 13 at the rear upper ends of the pair of left and right support frame bodies 11. A stay member 34 projects rearwardly from the upper front end of the outer wall 13 of the pair of left and right support frames 11, and a second mounting boss 36 having a mounting hole is provided between the stay member 34 and the inner wall 12. . A third mounting boss 38 having a mounting hole is provided between the inner wall 12 and the outer wall 13 at the lower end of the pair of left and right support frames 11.
As shown in FIGS. 1 and 2, a lid member 40 that closes the rear end opening between the pair of left and right support frame bodies 11 is provided at the rear end portion of the body frame 1 so as to be freely opened and closed.

  1 to 4, the cabin 4 (driver protection device) includes a pair of left and right side frame members 42, a roof member 41 laid between the upper portions of the side frame members 42, and a pair of left and right side frame members 42. A pair of left and right side wall bodies 43 are provided. The pair of left and right side frame members 42 are made of a pipe material or the like, and include a pair of left and right front struts 44, a pair of left and right rear struts 45, the upper ends of the corresponding front struts 44 and the upper ends of the rear struts 45. And a pair of left and right upper horizontal beam portions 46 are connected to each other. A pair of left and right mounting brackets 47 project rearward from the lower end portions of the left and right rear struts 45. A pair of left and right mounting brackets 47 correspond to the support bracket 22 of the body frame 1, and mounting holes 48 and locking holes 49 are provided corresponding to the mounting holes 24 and the locking holes 25 of the support bracket 22. ing. A mounting plate 50 is fixed to the lower ends of the left and right front support columns 44 by welding or the like.

The pair of side wall bodies 43 are made of a metal plate or the like, and are fixed to the pair of side frame members 42 by welding or the like. Each side wall body 43 is provided with a large number of insertion holes 52 through which the outer boom 77 or the loader working device 2 can be seen.
The cabin 4 is supported by the support bracket 22 of the machine body frame 1 via a mounting bracket 47 so as to be swingable around a support shaft 55 in the left-right direction. Thereby, the mounting state where the bottom side of the cabin 4 is placed on the body frame 1 so as to block the upper end opening of the body frame 1, and the bottom side of the cabin 4 is spaced upward from the body frame 1 and the upper end of the body frame 1. The posture can be freely changed to a lying state where the opening is opened. When the cabin 4 is swung to the front side around the support shaft 55, the placing plate 50 is placed in contact with the upper edge portion 8a of the front wall 8 through a cushioning material or the like, so that the cabin 4 is placed in the placed state. Configured to hold. Further, when the cabin 4 swings backward around the support shaft 55 and falls down, the locking holes 49 of the pair of mounting brackets 47 coincide with the locking holes 25 of the pair of support brackets 22. By inserting the locking pins 56 into the 25 and 49, the cabin 4 can be held in a lying state swinging backward. The cabin 4 is swingably supported with respect to the body frame 1.

When the cabin 4 is placed, the truck loader travels and works by the loader working device 2 are performed. When the cabin 4 is placed in a lying state, maintenance and the like in the body frame 1 are performed.
A bottom wall body 58 is connected and fixed between the lower end portions of the pair of left and right side wall bodies 43 in the longitudinal direction by welding or the like. The bottom wall body 58 is formed of a metal plate or the like, has a bottom wall portion 59 and a pair of left and right side wall portions 60 in a U-shape, and a pair of left and right mountings projecting outward at the upper ends of the pair of side wall portions 60. A piece 61 is provided, and the bottom wall body 58 is fixed to the lower end portions of the pair of side wall bodies 43 via a pair of attachment pieces 61 by welding or the like. A driver seat 63 is provided on the bottom wall portion 59 of the bottom wall body 58.

A window frame 65 is fixed between the rear struts 45 of the pair of left and right side frame members 42 of the cabin 4 by welding or the like, and a rear glass 66 is attached to the window frame 65.
Accordingly, the cabin 4 is closed by the roof 41 on the upper side, the side walls are closed by the pair of side wall bodies 43, the rear side is closed by the rear glass 66, and the lower central part in the front-rear direction is closed by the bottom wall body 58. It is formed in a box shape with a front opening.
In FIG. 1 and FIG. 2, the pair of left and right traveling devices 3 includes a pair of front and rear driven wheels 68 and a drive wheel 69 disposed above the pair of driven wheels 68. The crawler traveling device is formed by winding a crawler 70, and the traveling device 3 is driven by rotating the driving wheel 69 around the driving shaft 71 by the rotation of the driving shaft 71. The pair of driven wheels 68 are supported at both front and rear ends of the track frame 73 so as to be freely rotatable about the horizontal axis, and one of the pair of driven wheels 68 is urged in a tension adjusting direction by a tension adjusting mechanism (not shown). Yes. A plurality of rolling wheels 72 are provided between the pair of driven wheels 68, and each of the plurality of rolling wheels 72 is supported by the track frame 73 so as to be freely rotatable around the horizontal axis. The drive shaft 71 of the traveling device 3 is disposed below the rear end portion of the cabin 4.

Each of the pair of left and right traveling devices 3 has a hydraulic traveling motor 74, and the driving shaft 71 is rotationally driven by the traveling motor 74, and the driving wheels are driven by the rotation of the drum of the traveling motor 74 by the rotation of the driving shaft 71. 69 rotates around the drive shaft 71, whereby each traveling device 3 is driven by the traveling motor 74.
The loader work device 2 includes a pair of left and right booms 77 and a bucket 78 (work tool) attached to the tip of the boom 77.
The pair of left and right booms 77 are arranged on both the left and right sides of the body frame 1 and the cabin 4, and the left and right booms 77 are connected to each other by a cylindrical boom connecting body in the middle part of the front part.

The pair of left and right booms 77 are supported on the rear upper part of the body frame 1 so that the base side of the boom 77 can swing up and down via a first lift link 81 on the rear side and a second lift link 82 on the front side. The front end side moves up and down on the front side of the body frame 1. A pair of left and right boom cylinders 79 each including a double-acting hydraulic cylinder are provided between the base side of the pair of left and right booms 77 and the rear lower part of the body frame 1.
The lower base end portion of the first lift link 81 is inserted between the inner wall 12 and the outer wall 13 corresponding to the first mounting boss 32 of the body frame 1, and the first link support shaft 85 is the first mounting. The lower base end of the first lift link 81 is inserted into the mounting hole of the boss 32 and the lower base end of the first lift link 81 so that the body frame 1 (the first mounting boss 32). The first link support shaft 85 is supported so that it can swing back and forth.

The front base end portion of the second lift link 82 is inserted between the stay member 34 corresponding to the second mounting boss 36 of the body frame 1 and the inner wall 12, and the second link support shaft 86 is connected to the second mounting boss. 36 and through the front base end of the second lift link 82, the front base end of the second lift link 82 is inserted into the body frame 1 (second mounting boss 36). The first link support shaft 85 is supported in a vertically swingable manner around the second link support shaft 86 in front of the one link support shaft 85.
The base side of the boom 77 is supported on the upper free end of the first lift link 81 so as to be swingable up and down around the first boom support shaft 88, and the base side of the boom 77 is connected to the rear free end of the second lift link 82. The first boom support shaft 88 is supported in a vertically swingable manner around the second boom support shaft 89 on the front side.

The lower base end portion of the boom cylinder 79 is inserted between the inner wall 12 and the outer wall 13 corresponding to the third mounting boss 38 of the fuselage frame 1, and the lower cylinder support shaft 91 is connected to the third mounting boss 38. By being inserted through the mounting hole and into the lower base end portion of the boom cylinder 79, the lower base end portion of the boom cylinder 79 is connected to the body frame 1 so as to be swingable around the lower cylinder support shaft 91. ing. The upper end of the boom cylinder 79 is connected to the base of the boom 77 so as to be swingable about the upper cylinder support shaft 92.
Thus, the pair of left and right booms 77 are supported on the rear upper part of the body frame 1 so that the base side of the boom 77 can swing up and down via the first lift link 81 on the rear side and the second lift link 82 on the front side. The pair of left and right booms 77 are moved up and down by the expansion and contraction of the left and right boom cylinders 79, and the tip end side of the boom 77 is moved up and down on the front side of the body frame 1.

As shown in FIG. 2, the upper cylinder support shaft 92 is positioned in front of the second boom support shaft 89 and in the rear of the second link support shaft 86 with the boom cylinder 79 contracted and the boom 77 lowered. The second link support shaft 86 and the second boom support shaft 89 are positioned below the upper cylinder support shaft 92, and the boom cylinder 79 and the second lift link 82 cross in a cross shape when viewed from the side. It is configured as follows.
In addition, as shown in FIG. 1, in a state where the boom cylinder 79 is extended and the boom 77 is raised, the second boom support shaft 89 is positioned above the second link support shaft 86, and the upper cylinder support shaft 92 is The second boom support shaft 89, the second link support shaft 86, and the upper cylinder support shaft 92 are arranged in a substantially straight line in the vertical direction, located above the second boom support shaft 89. That is, with the boom cylinder 79 extended and the boom 77 raised, the second boom support shaft 89 is positioned above the second link support shaft 86, the second lift link 82 is directed vertically, and the upper cylinder The support shaft 92 is positioned above the second boom support shaft 89, and the upper cylinder support shaft 92 is positioned slightly forward of the upper extension line L of the second lift link 82.

The height h1 from the drive shaft 71 to the first link support shaft 85 and the height h2 from the drive shaft 71 to the second link support shaft 86 are smaller than the height H from the lower end of the traveling device 3 to the drive shaft 71. Is set to The lower cylinder support shaft 91 is disposed behind and below the drive shaft 71 of the travel device 3, and the first link support shaft 85 is disposed behind and above the drive shaft 71 of the travel device 3.
The bucket 78 is supported by a tip end portion of the boom 77 through a bracket 95 so as to be swingable around a support shaft 97. Between the bracket 95 of the bucket 78 and the middle part on the front end side of the boom 77, a bucket cylinder 98 composed of a double-acting hydraulic cylinder is interposed. The bucket 78 is configured to swing (squeeze / dump operation) by the expansion and contraction of the bucket cylinder 98.

3 and 4, an engine 101 is provided on the rear side on the bottom wall 6 of the body frame 1. A fuel tank 102 and a hydraulic oil tank 103 are provided on the front side of the bottom wall 6 of the body frame 1. A traveling hydraulic control device 105 is provided in front of the engine 101, and a triple gear pump 106 is provided in front of the traveling hydraulic control device 105. A work control valve (hydraulic control device) 107 is provided in the middle part in the front-rear direction of the right side wall 7.
The traveling hydraulic control device 105 supplies and discharges the hydraulic oil in the hydraulic oil tank 103 to and from the pair of left and right traveling motors 74 by the power of the engine 101 to drive and control the pair of left and right traveling motors 74. The gear pump 106 supplies and discharges hydraulic oil in the hydraulic oil tank 103 to and from the boom cylinder 79 and bucket cylinder 98 via the work control valve 107 by inputting the power of the engine 101 via the traveling hydraulic control device 105. The work control valve 107 drives and controls the boom cylinder 79 and the bucket cylinder 98 to expand and contract the boom cylinder 79 and the bucket cylinder 98.

3, 4, and 8 to 10, an air conditioner body 109 is provided at the center in the left-right direction on the rear surface of the cabin 4, and a pilot hose relay member 110 is provided on both the left and right sides of the air conditioner body 109.
A lower back wall 113 that is immersed forward is provided at the lower rear end of the cabin 4, a closing member 114 is provided on the rear side of the lower back wall 113, and an air conditioner is provided between the lower back wall 113 and the closing member 114 of the cabin 4. A storage unit 115 is formed, and the air conditioner main body 109 is stored in the air conditioner storage unit 115. The air conditioner storage unit 115 has an upper end opening 116 opened in the cabin 4.

The air conditioner main body 109 is provided with an evaporator that evaporates the refrigerant and removes heat from the surroundings to cool the surroundings, and cools the air introduced from the inside air inlet or the outside air inlet of the air conditioner main body 109 and sends out the conditioned air Is configured to do.
An air conditioner hose connected to the air conditioner main body 109 is disposed in the side frame member 42 of the cabin 4 and is inserted into the cabin 4, and conditioned air from the air conditioner main body 109 is passed through the air conditioner hose to the driving seat of the cabin 4. This is sent to the upper side of 63.

A compressor that compresses the refrigerant, a radiator that condenses and liquefies the refrigerant compressed by the compressor, and liquefies the condenser 101 on the machine body frame 1 side where the engine 101 is provided, and is liquefied by the radiator. An expansion valve or the like for reducing the pressure of the refrigerant to be easily vaporized is provided. The evaporator of the air conditioner main body 109 evaporates the pressure reduced by the expansion valve and then returns the refrigerant to the compressor. And an expansion valve and a pipe, a hose and the like.
3, 4, 6, and 8, the lower back wall 113 of the cabin 4 includes an upper horizontal wall 118, an upper vertical wall 119 that protrudes downward from the front end of the upper horizontal wall 118, and an upper vertical wall 119. The lower horizontal wall 120 protruded forward from the lower end of the lower horizontal wall 120, and the lower vertical wall 121 protruded downward from the front end of the lower horizontal wall 120. The lower vertical wall 121 is connected to the bottom wall body 58 of the cabin 4.

The closing member 114 includes a rear wall plate 123, a pair of left and right side wall plates 124, and a bottom wall plate 125. The rear wall plate 123 and the pair of left and right side wall plates 124 are interposed via a pair of left and right side inclined plates 126. The bottom wall plate 125 and the pair of left and right side wall plates 124 are coupled via a pair of left and right bottom inclined plates 127.
The upper front side of the pair of left and right side wall plates 124 is an inclined plate portion 129 that is inclined forward as it goes outward, and the front end of the inclined plate portion 129 is a midway portion on the outer side in the left and right direction of the upper vertical wall 119. Are connected and fixed to each other by welding or the like. The lower portions of the pair of left and right side wall plates 124 protrude forward from the inclined plate portion 129, and the front ends thereof are connected and fixed to the middle portion of the lower vertical wall 121 in the left and right direction by welding or the like.

A pair of left and right insertion holes 130 for inserting the pilot hose into and out of the cabin 4 are provided at both outer ends of the lower vertical wall 121 protruding outward from the side wall plate 124, and the opening edges of the pair of insertion holes 130 are provided. The guide cylinders 132 are mounted on the respective portions, and a plurality of guide bars 131 for guiding the pilot hose to the pair of left and right side wall plates 124 project outward.
As shown in FIGS. 7 and 9, the relay members 110 of the pilot hose are attached to the left and right sides of the front wall plate 20 of the lateral connecting member 19 that is a pair of left and right and is on the side of the body frame 1. The pair of left and right relay members 110 are provided with a plurality of first hose connection portions 133 protruding outward and a plurality of second hose connection portions 134 protruding inward. As described above, the support shaft 55 serving as the swing fulcrum of the cabin 4 is disposed on the back side of the cabin 4 and is located in the vicinity of the relay member 110.

  As shown in FIG. 3, in the cabin 4, a travel operation lever 137 for operating the pilot pressure of the travel hydraulic control device 105 and a work operation lever for operating the pilot pressure of the work control valve 107. 138. The travel operation lever 137 and the work operation lever 138 are provided separately on the left and right sides of the driver seat 63 in the cabin 4. The travel operation lever 137 is disposed on the left side of the driver seat 63, and on the right side of the driver seat 63. A work operation lever 138 is disposed. The travel operation lever 137 and the work operation lever 138 are supported so as to be swingable back and forth and left and right.

  A travel pilot valve is provided below the travel operation lever 137, and a work pilot valve is provided below the work operation lever 138. A plurality of traveling pilot hoses 141 are connected to the lower part (traveling pilot valve) of the traveling operation lever 137, and the plurality of traveling pilot hoses 141 are arranged with the left side in the bottom wall body 58 of the cabin 4 facing rearward. Has been. A plurality of work pilot hoses 142 are connected to the lower part (work pilot valve) of the work operation lever 138, and the plurality of work pilot hoses 142 are arranged with the right side in the bottom wall body 58 of the cabin 4 facing rearward. Has been.

  3, 7, 8, and 9, the plurality of traveling pilot hoses 141 connected to the traveling operation lever 137 and the plurality of working pilot hoses 142 connected to the operation operating lever 138 correspond to each other. After being pulled out from the rear cabin 4 through the guide tube 132 through the insertion hole 130 of the lower vertical wall 121, the plurality of guide rods 131 are alternately hooked up and down or front and back while being slackened. It is sent to the corresponding left and right relay members 110 side. Accordingly, even if the cabin 4 is swung around the support shaft 55, the pilot hoses 141 and 142 can be prevented from being greatly bent downward and rubbed or interfered with other members. , 142 and other members can be prevented from being damaged.

A travel pilot hose 141 is connected between the travel operation lever 137 and the travel hydraulic control device 105 via the relay member 110, and a plurality of work operations are performed between the work operation lever 138 and the work control valve 107. The pilot hose 142 is connected via the relay member 110. The plurality of traveling pilot hoses 141 and the plurality of working pilot hoses 142 are arranged so as to be distributed to the left and right with respect to the pair of left and right relay members 110.
That is, as shown in FIG. 7, the left relay member 110 is a relay member for the traveling pilot hose 141, and the right relay member 110 is a relay member for the working pilot hose 142. A plurality of travel pilot hoses 141 (travel pilot hose 141A on the cabin 4 side) connected to the travel operation lever 137 are respectively connected to the plurality of first hose connection portions 133 of the left relay member 110, Correspondingly, a plurality of traveling pilot hoses 141 (traveling pilot hoses 141B on the body frame 1 side) connected to the traveling hydraulic control device 105 are connected to a plurality of second hose connecting portions 134 of the relay member 110 on the left side. Are connected to each.

A plurality of work pilot hoses 142 (work pilot hose 142A on the cabin 4 side) connected to the work operation lever 138 are respectively connected to the plurality of first hose connection portions 133 of the relay member 110 on the right side. Correspondingly, a plurality of work pilot hoses 142 (work pilot hose 142B on the body frame 1 side) connected to the work control valve 107 are respectively connected to the plurality of second hose connection portions 134 of the right relay member 110. It is connected.
Thus, when the left traveling operation lever 137 is swung from the neutral position to the front side, the traveling hydraulic control device 105 drives the left and right traveling motors 74 to rotate forward, causing the track loader to travel forward, When the traveling operation lever 137 is swung from the neutral position to the rear side, the traveling hydraulic control device 105 drives the left and right traveling motors 74 in the reverse direction to cause the track loader to travel backward.

When the traveling operation lever 137 is swung to the left from the neutral position, the traveling hydraulic control device 105 drives the left traveling motor 74 in the reverse direction and the right traveling motor 74 in the normal direction to drive the track loader. When the travel control lever 137 is rotated counterclockwise from the neutral position to the right, the travel hydraulic control device 105 drives the left travel motor 74 forward and the right travel motor 74 reversely. Rotate the track loader clockwise.
When the travel control lever 137 is swung from the neutral position to the left front side, the travel hydraulic control device 105 drives the left and right travel motors 74 to rotate forward or reverse, and the swing angle of the travel operation lever 137 When the traveling load lever 137 is swung from the neutral position to the front right side, the left and right traveling motors 74 are driven to rotate forward by the traveling hydraulic control device 105. Alternatively, the vehicle is driven in the reverse direction so as to travel forward while turning the track loader clockwise corresponding to the swing angle of the travel operation lever 137.

When the traveling operation lever 137 is swung from the neutral position to the left rear side, the traveling hydraulic control device 105 drives the left and right traveling motors 74 to rotate forward or backward, thereby swinging the traveling operation lever 137. When the traveling load lever 137 is swung from the neutral position to the right rear side while turning the track loader to the left according to the angle, the right and left traveling motors 74 are moved forward and backward by the traveling hydraulic control device 105. By rotating or reversely driving, the track loader is rotated backward in accordance with the swing angle of the travel operation lever 137, and the vehicle travels backward.
When the right operation lever 138 is swung forward from the neutral position, the boom cylinder 79 is reduced by the operation control valve 107 and the boom 77 is lowered. When the work control lever 138 is swung from the neutral position to the rear side, the boom cylinder 79 is extended by the work control valve 107 and the boom 77 is raised.

When the operation lever 138 is swung to the left from the neutral position, the bucket cylinder 98 is contracted by the operation control valve 107 and the bucket 78 is squeezed. When the operation lever 138 is swung from the neutral position to the right side, the bucket cylinder 98 is extended by the operation control valve 107 and the bucket 78 is dumped.
According to the above embodiment, as shown in FIG. 2, the boom cylinder 79 is contracted and the boom 77 is lowered, and the upper cylinder support shaft 92 is in front of the second boom support shaft 89 and the second link support. The second link support shaft 86 and the second boom support shaft 89 are positioned below the upper cylinder support shaft 92 and are located behind the shaft 86, and the boom cylinder 79 and the second lift link 82 are viewed from the side. Is configured to cross in a cross shape, the second lift link 82 that supports the base side of the boom 77 is positioned below the upper end of the boom cylinder 79 in a state where the boom 77 is lowered, The base end side of the boom 77 can be lowered, and the rear part of the body frame 1 that supports the base end side of the boom 77 can thereby be lowered. For this reason, even if the fuselage frame 1 to the cabin 4 are set low and the driver seat 63 is set to a low position, the middle part of the boom 77 may be positioned below the field of view of the driver sitting on the driver seat 63. It is possible to prevent the lateral view of the driver from being hindered by the boom 77, and it is possible to prevent the rear portion of the body frame 1 from being excessively high compared to the height position of the driver seat 63. Visibility is also improved.

  In addition, as shown in FIG. 1, in a state where the boom cylinder 79 is extended and the boom 77 is raised, the second boom support shaft 89 is positioned above the second link support shaft 86, and the upper cylinder support shaft 92 is Since the second boom support shaft 89, the second link support shaft 86, and the upper cylinder support shaft 92 are arranged substantially linearly in the up and down direction, the second boom support shaft 89, the second link support shaft 86, and the upper cylinder support shaft 92 are arranged. Although the base end side of the boom 77 is in a low position when the boom 77 is lowered as shown in the above, the base end side of the boom 77 can be lifted to the highest position when the boom 77 is raised. The tip end side of the boom 77 can be greatly raised and lowered on the front side of the body frame 1.

In addition, a pair of left and right traveling devices 3 that are driven by rotation of the drive shaft 71 are provided, and a height h1 from the drive shaft 71 to the first link support shaft 85 and a height h2 from the drive shaft 71 to the second link support shaft 86 are provided. However, since it is set to be smaller than the height H from the lower end of the traveling device 3 to the drive shaft 71, the body frame 1 to the cabin 4 are set to be low so that the entire truck loader is made small and low in height. It becomes possible to do.
Since the lower cylinder support shaft 91 is disposed behind and below the drive shaft 71 of the traveling device 3, the boom cylinder 79 can be disposed at a lower position than the traveling device 3. The frame 1 to the cabin 4 can be set as low as possible, and the rear part of the body frame 1 can be lowered. Moreover, since the first link support shaft 85 is disposed behind and above the drive shaft 71 of the traveling device 3, the base end side of the boom 77 is lifted to a position as high as possible while the boom 77 is raised. Can do.

  Further, according to the above-described embodiment, the air conditioner body 109 is provided in the center in the left-right direction on the back surface of the cabin 4, and the pilot hose relay members 110 are provided on the left and right sides of the air conditioner body 109. The pilot hoses 141 and 142 are attached to the frame 1 side and connected between the operation levers 137 and 138 on the cabin 4 side and the hydraulic control devices 105 and 107 on the body frame 1 side via the relay member 110. Even if the cabin 4 is placed, it is possible to prevent the pilot hoses 141 and 142 between the relay member 110 and the hydraulic control devices 105 and 107 from swinging greatly downward. Pilot hoses 141 and 142 and other parts that come into contact with or interfere with other members on the body frame 1 side There can be prevented from being damaged or broken. Further, since the relay member 110 is attached to the body frame 1 side, the relay member 110 does not move relative to the body frame 1 even if the cabin 4 is swung around the support shaft 55, and the cabin 4 side The number of parts for clamping the pilot hoses 141 and 142 arranged toward the machine body frame 1 and the guide members for guiding can be reduced, and the number of assembling steps and the number of parts can be reduced. In addition, the air conditioner main body 109 can be stored using the dead space on the back surface of the cabin 4, and the relay member 110 can also be arranged using the dead spaces on both the left and right sides of the air conditioner main body 109. 109 and the relay member 110 can be accommodated in a compact manner, and the air conditioner main body 109 and the relay member 110 do not interfere with the operation and operation of the track loader.

In addition, since the support shaft 55 serving as a swing fulcrum of the cabin 4 is disposed on the back side of the cabin 4 so as to be positioned in the vicinity of the relay member 110, even if the cabin 4 is swung around the support shaft 55. Therefore, the pilot hoses 141 and 142 can be prevented from largely swinging due to the swing of the cabin 4, and the pilot hoses 141 and 142 can contact or interfere with other members on the body frame 1 also from this point. Can be prevented.
In addition, a lower back wall 113 that is recessed forward is provided at the lower rear end of the cabin 4, a closing member 114 is provided on the rear side of the lower back wall 113, and the space between the lower back wall 113 of the cabin 4 and the closing member 114 is Since the air conditioner storage section 115 is formed and the air conditioner main body 109 is stored in the air conditioner storage section 115, the air conditioner main body 109 can be easily and reliably held on the back surface of the cabin 4, which is convenient.

  Further, a driving operation lever 137 for operating the pilot pressure of the driving hydraulic control device 105 and a work operation lever 138 for operating the pilot pressure of the work control valve 107 include a driver seat in the cabin 4. 63, a plurality of traveling pilot hoses 141 that connect the traveling operation lever 137 and the traveling hydraulic control device 105, and a plurality that connect the working operation lever 138 and the working control valve 107. Since the working pilot hoses 142 are arranged separately with respect to the pair of left and right relay members 110, the plurality of traveling pilot hoses 141 and the plurality of working pilot hoses 142 are not entangled or interfere with each other. As described above, a plurality of traveling pilot hoses 141 and a plurality of working pilots Can be orderly arranged separately and over scan 142 on the left and right.

  In the above-described embodiment, a traveling hydraulic control device 105 that drives and controls the traveling motor 74 and a work control valve 107 that drives and controls the boom cylinder 79 and the bucket cylinder 98 are provided on the body frame 1 side. A travel operation lever 137 for operating the pilot pressure of the travel hydraulic control device 105 and a work operation lever 138 for operating the pilot pressure of the work control valve 107 are distributed left and right in the cabin 4. However, instead of this, only one of the traveling hydraulic control device 105 or the working control valve 107 is provided on the body frame 1 side, and the pilot pressure of the traveling hydraulic control device 105 is correspondingly adjusted. Pilot pressure for operating lever 137 for operation or control valve 107 for operation Only one of the working lever 138 for operating, may be provided in the cabin 4.

  In the above-described embodiment, the base side of the boom 77 is supported on the rear upper part of the body frame 1 via the first lift link 81 on the rear side and the second lift link 82 on the front side so as to be swingable up and down. Instead of this, the base portion side of the boom 77 may be directly swingably supported at the rear portion of the body frame 1 without the first lift link 81 and the second lift link 82 being interposed.

It is a side view of a truck loader in the state where a boom which shows one embodiment of the present invention was raised. It is a side view of the track loader in the state where the boom is lowered. It is side surface sectional drawing of the track loader. It is front sectional drawing of the track loader. It is a perspective view of the machine frame. It is the perspective view of the state which looked at the cabin lower part from the back side. It is a front view front view of the horizontal connection member and a relay member part. It is side surface sectional drawing of the lower back wall part of the cabin. It is side surface sectional drawing of the same horizontal connection member and a relay member part. It is front sectional drawing of the same obstruction | occlusion member part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Airframe frame 2 Loader working apparatus 3 Traveling apparatus 4 Cabin 63 Driver's seat 68 Driven wheel 70 Crawler 71 Drive shaft 74 Travel motor 77 Boom 79 Boom cylinder 81 First lift link 82 Second lift link 86 Second link support shaft 88 First Boom support shaft 89 Second boom support shaft 91 Lower cylinder support shaft 92 Upper cylinder support shaft 101 Engine 105 Hydraulic control device for traveling 109 Air conditioner main body 110 Relay member 113 Lower back wall 114 Closure member 115 Air conditioner storage portion 137 Operation lever 138 for traveling Operation lever 141 Travel pilot hose 142 Work pilot hose

Claims (7)

The base side of the boom (77) is supported on the rear side of the body frame (1) so that the front end side of the boom (77) moves up and down on the front side of the body frame (1). A boom cylinder (79) for moving the boom (77) up and down is provided between the side and the rear part of the fuselage frame (1), and the cabin (4) is mounted on the fuselage frame (1). With respect to the frame (1), the bottom side of the cabin (4) is placed on the body frame (1) and the bottom side of the cabin (4) is in a lying state where the bottom side is spaced upward from the body frame (1). In a truck loader supported in a swingable manner, provided with a hydraulic control device on the body frame (1) side, and provided with an operation lever for operating a pilot pressure of the hydraulic control device on the cabin (4) side,
The air conditioner body (109) is provided at the center in the left-right direction on the rear surface of the cabin (4), and the pilot hose relay members (110) are provided on the left and right sides of the air conditioner body (109). The pilot hose is attached to the frame (1) side, and the pilot hose is connected via the relay member (110) between the operation lever on the cabin (4) side and the hydraulic control device on the body frame (1) side. A featured track loader.   The support shaft (55) serving as a swing fulcrum of the cabin (4) is disposed on the back side of the cabin (4) so as to be positioned in the vicinity of the relay member (110). The described track loader.   A plurality of guide rods (131) for guiding the pilot hoses are provided on the cabin (4) side, and the pilot hoses drawn out from the cabin (4) are alternately placed on the plurality of guide rods (131). 3. The truck loader according to claim 1, wherein the truck loader is sent to the relay member (110) side while being slackened after being hooked.   A lower back wall (113) that is recessed forward is provided at the lower rear end of the cabin (4), a closing member (114) is provided on the rear side of the lower back wall (113), and the lower back wall of the cabin (4). An air conditioner storage part (115) is formed between (113) and the closing member (114), and the air conditioner body (109) is stored in the air conditioner storage part (115). The truck loader according to any one of?   A pair of left and right traveling devices (3) driven by a hydraulic traveling motor (74) is provided, and a traveling hydraulic control device (105) for driving and controlling the traveling motor (74) is provided on the body frame (1) side. A traveling operation lever (137) for operating the pilot pressure of the traveling hydraulic control device (105) is provided in the cabin (4). The traveling operation lever (137) and the traveling hydraulic control device ( 105), a plurality of traveling pilot hoses (141) are connected to each other via the relay member (110).   A bucket (78) is provided at the tip of the boom (77), and a bucket cylinder (98) for squeezing and dumping the bucket (78) is provided. 79) and a work control valve (107) for driving and controlling the bucket cylinder (98), and a work operation lever (for operating the pilot pressure of the work control valve (107) in the cabin (4)). 138), and a plurality of work pilot hoses (142) are connected between the work operation lever (138) and the work control valve (107) via the relay member (110). The truck loader according to any one of claims 1 to 5. A pair of left and right traveling devices (3) driven by a hydraulic traveling motor (74) is provided, a bucket (78) is provided at the tip of the boom (77), and the bucket (78) is squeezed and dumped. A bucket cylinder (98) is provided,
On the machine body frame (1) side, a traveling hydraulic control device (105) for driving and controlling the traveling motor (74), and a working control valve (107) for driving and controlling the boom cylinder (79) and the bucket cylinder (98) Is provided,
A travel operation lever (137) for operating the pilot pressure of the travel hydraulic control device (105) and a work operation lever (138) for operating the pilot pressure of the work control valve (107), The driver seat (63) in the cabin (4) is distributed to the left and right,
A plurality of travel pilot hoses (141) that connect the travel operation lever (137) and the travel hydraulic control device (105), a work operation lever (138), and a work control valve (107) are connected. The track loader according to any one of claims 1 to 4, wherein a plurality of work pilot hoses (142) are arranged so as to be distributed with respect to the pair of left and right relay members (110).

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