The present invention relates to a loading device (loader) for loading the earth and sand installed in a working machine.
In general, the loading device such as a front loader and the like installed in the working vehicles comprises a pair of left and right lift arms, a bucket attached to heads of the lift arms, cylinders for lifting the lift arms, and cylinders for rotating the bucket. The front loader is attached to brackets installed in the both sides of a bonnet of a tractor that is one of the working vehicles. The cylinders for lifting the lift arms are installed at a lower side of the lift arm of the front loader, and a link for the bucket is installed at an upper side of the lift arm. The link is connected to the cylinder for swinging the bucket through an intermediate link attached to the above-mentioned bracket and to the upper portion of the lift arm. The telescopic motion of the cylinder swings the bucket.
Conventionally, in structures of such the front loader, Japanese Patent Laying-Open No. 2005-16022 discloses that a box-shaped lift arm is used for lifting the loader in order to secure its own strength.
However, in the conventional box-shaped lift arm, four plates are needed to form the box-shape and the length of welds for joining the plates becomes long, and this causes an increase in cost. When the lift arm has a plate-like structure, it is necessary to increase the plate thickness in order to take a large load, which increases the weight of the working machine and increases costs in correspondence to the increase of weight.
An object of the present invention is to realize a structure with required strength and low cost and to achieve, at the same time, both weight-lightening of a loader and sufficient load bearing performance.
The present invention solves the problem by means as follows: The present invention provides a loading device installed in a working machine. In the loading device, lift arms extended in longitudinal direction are connected to each other by a cross member, and connection sections between inner surfaces of the lift arms and the cross member are each formed in a shape broadening from the cross member toward the lift arm.
In the above mentioned loading device, reinforcement members are each attached to an outer surface of each of the lift arms so as to overlap a connection section between the cross member and the lift arm in a side view.
Preferably, contact members are attached to lower side faces of heads of the respective lift arms, so as to restrict an amount of rotation of a working apparatus installed on the heads of the lift arms.
According to the present invention, as shown in the preferable embodiment, stress concentration at connection sections can be prevented, so that a durability of the loader can be improved.
According to the present invention, an increase in the weight of the lift arms can be prevented and, at the same time, a rigidity of the lift arms can be improved.
According to the present invention, contact pressure when dumping can be reduced, so that a durability of the loader can be improved.
2 loader
171 lift arm
171
b stopper
176 first cross member
176
b base
179 reinforcement plate
In the present invention, a link mechanism for lifting and swinging a loading device installed in a working machine is simply configured and the weight of the link mechanism is lightened by means of using a plate-like member, and the link mechanism is reinforced at an important point in order to improve its load capacity.
An embodiment of the present invention will be described.
A steering wheel 5 and a seat 6 are provided in the steering part 4, and an operation apparatus for driving direction and an operation apparatus for the loader 2 are provided at the side of the seat 6. Thus, a driving direction of the vehicle 1 and the loader 2 can be operated at the steering part 4. The loader 2 that is one of the loading devices is connected to side portions of the vehicle 1 and extended forward, and a bucket is provided at a head of the loader. An engine is provided at a front portion of a frame 9 that is a chassis of the vehicle 1, and the engine is covered in a bonnet 30 provided on the frame 9.
The loader 2 is provided outside the bonnet 30. The digger apparatus 3 is detachably attached to a rear portion of the vehicle 1, and the digger apparatus 3 is operated by an operation apparatus provided in a rear of the seat 6. A hydraulic oil tank 90 is provided beside the seat 6, and is formed on a portion thereof opposite to the steering part 4 with steps for getting on and off the steering part 4. The hydraulic oil tank 90 is a reservoir tank of hydraulic oil.
The loader 2 is provided at a front portion of the vehicle 1 through a mast member, and works as a front loader. The front wheels 8 are provided below lift arms of the loader 2 so as to serve as steerable wheels of the vehicle. The lift arms are bent upward at center portions thereof so as to ensure an enough space to allow turn of the steerable wheels below the lift arms.
A construction of the loader 2 will be described below referring to the drawings.
The loader 2 comprises lift arms 171, lift arm cylinders 104, a bucket 173, bucket links 174, intermediate links 175, bucket cylinders 105, a first cross member 176, and a second cross member 178. The lift arm 171, the lift arm cylinder 104, and the bucket cylinder 105 are pivoted at rear ends thereof onto the above-mentioned mast member of the frame 9.
The lift arms 171 are rotated upward and downward by the respective lift arm cylinders 104. The bucket 173 is swingably attached to front ends of the lift arms 171. The bucket 173 is connected to front ends of the bucket links 174 so as to be swung by the bucket cylinders 105 through the intermediate links 175.
The lift arms 171 are provided at respective left and right sides of the vehicle 1. The lift arms 171 are extended forwardly downward slantwise, and bent further downward at the respective center parts thereof, and bent forward at lower front portions thereof, that is, each of the lift arms has an approximately S-like shape. The bucket 173 is attached to heads of the lift arms 171 through attachments 173b. The bucket cylinder 105 and the bucket links 174 are provided above the lift arms 171. The intermediate links 175 are fore-and-aft rotatably provided on the respective lift arms 171. The lift arm cylinder 104 is provided below a center portion of the lift arm 171.
The first cross member 176 and the second cross member 178, which are the reinforcement members, are attached between the lift arms 171 in a transversal direction. The first cross member 176 is connected at both ends thereof to the left and right lift arms 171 through bases 176b. The first cross member 176 and the second cross member 178 are configured as pipes, and welded to the lift arms 171. Each of the lift arms 171 has a wide portion to be attached to the second cross member 178. The bucket 173 is detachably attached at a rear end thereof to the attachment 173b.
Each of the intermediate link 175 is pivoted at a lower end thereof to a longitudinally middle portion of the corresponding lift arm 171. The intermediate link 175 is pivoted at an upper rear portion thereof to a rear end of the bucket link 174, and pivoted at an upper rear portion thereof to a head of a rod of the bucket cylinder 105. The intermediate link 175 includes a pair of substantially triangular plates. The rear end of the bucket link 174, the bucket cylinder 105, and the lift arm 171 are provided between the two plates of the intermediate link 175 so as to be connected to the intermediate link 175. In this way, the bucket links 174 are disposed in the respective intermediate links 175 so as to be offset from the respective lift arms 171.
A construction for reinforcing connection sections of the intermediate links of the loader 2 will be described below referring to the drawings.
Reinforcement plates 179 are attached onto the center portions of the respective lift arms 171. Each of the reinforcement plates 179 connects a support section of the lift arm 171 supporting the intermediate link 175 and a support section of the lift arm 171 supporting the lift arm cylinder 104 to each other. The reinforcement plate 179 is attached to an area of an outer side surface of the lift arm 171 inward from an outer edge of the side surface of the lift arm 171.
The reinforcement plate 179 is extended toward a head of the lift arm 171 from the support section of the lift arm 171 supporting the intermediate link 175. The reinforcement plate 179 is also extended toward the head of the lift arm 171 from the connection section of the lift arm 171 connected to a rod 104b of the lift arm cylinder 104. The reinforcement plate 179 is spread so as to overlap a connection section of the first cross member 176 in a side view. In this embodiment, the reinforcement plate 179 overlaps a substantially half part of the first cross member 176. The reinforcement plate 179 is formed in an inclined V-like shape. On the lift arm 171, the reinforcement plate 179 connects the support section of the lift arm 171 supporting the intermediate link 175, the support section of the lift arm 171 supporting the lift arm cylinder 104, and the support section of the lift arm 171 supporting the first cross member 176 together. Thus, the lift arm 171 receives a dispersed stress from the intermediate link 175 and the lift arm cylinder 104, so as to be improved in a load bearing performance thereof. Since the reinforcement plate 179 is attached to the side surface of the lift arm 171, the lift arm 171 is reinforced and the reinforcement plate 179 is easily attached without interfering with the link mechanism of the loader 2.
In this way, the reinforcement plate 179 is attached to the outer surface of the lift arm 171 so as to overlap the connection section of the cross member 176 in the side view. As a result, a durability of the loader 2 is improved.
A reinforcement construction of the first cross member will be described below.
The first cross member 176 is connected to the lift arm 171 through the base 176b. The base 176b is substantially shaped in a cone gently depressed at a peripheral side surface thereof, as shown in
In this way, the connection sections between the first cross member 176 and the respective lift arms 171 are formed in shapes broadening from the first cross member 176 toward the respective lift arms 171. As a result, stress concentration on the connection sections can be prevented, so that the durability of the loader 2 can be improved.
The base 176b may be exchanged for a base as shown in
It is described below referring to drawings that a construction of a stopper for the bucket 173 when dumping (when the lift arm 171 is raised and the bucket 173 is turned downward to empty load).
Each of the lift arms 171 is formed at a front portion thereof with a downward protrusion. Stoppers 171b are attached to the protrusion. The stopper 171b serves as a contact member that restricts a rotation of the bucket 173 when dumping.
The stoppers 171b are attached to both side surfaces of the protrusion provided at the bottom of the lift arm 171. The stoppers 171b are adapted to contact a square-bar shaped contact member 173c mounted on the attachment 173c so as to restrict the rotation of the bucket 173 when dumping. The contact member 173c is spanned in a bracket supporting a support pin of the attachment 173b. When dumping, a top flat surface of the contact member 173c contacts bottom flat surface of the stoppers 171b.
Thus, a contact area of a portion of the bucket to a portion of the lift arms is increased so as to reduce a contact pressure applied onto the contact area. As a result, the stresses applied to the lift arm 171 and the bucket 173 are decreased, and the durability of the loader 2 is improved.
Any construction can serve as a stopper for restricting the rotation of the bucket 173 when dumping only if it ensures a sufficiently large contact area on the heads of lift arms 171 to contact the bucket 173. For example, as shown in
The present invention is applicable as a loading device for loading the earth and sand.
Number | Date | Country | Kind |
---|---|---|---|
2005-080678 | Mar 2005 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2006/300953 | 1/23/2006 | WO | 00 | 11/2/2007 |