Arrangement for lifting and lowering load

专利摘要:
A load handling apparatus particularly suited for incorporation into a vehicle for lifting and transporting heavy loads such as steel billets, comprising a main frame to straddle a load, pivotally mounted lift frame assembly providing the lifting capability to raise a steel billet and suspend it during transport, suspended load engaging and clamping members, hydraulic cylinders to actuate the clamping and lifting members and an hydraulically actuated drag link for stabilizing the load while transporting over uneven terrain. The drag link is pivotally connected at its one end to the main frame and at its other end to the suspended load engaging and clamping assembly so that these pivot points, in conjunction with the pivot points of the lift frame assembly, substantially define a parallelogram relationship. By varying the length of the drag link, the clamping assembly is maintained in proper orientation relative to the ground. A hydraulic control system is provided for the cylinders associated with the lifting, clamping and load stabilizing members, each hydraulic circuit having independent control and overload protection mechanisms. In a preferred embodiment, the lateral clearance between the frame members and the clamping and lifting members is controlled to limit the deflection of the latter.
公开号:SU1405694A3
申请号:SU843812860
申请日:1984-11-12
公开日:1988-06-23
发明作者:С.Кресс Эдвард；Р.Томас Деннис；Л.Лябердия Вильям
申请人:Кресс Корпорейшн (Фирма)；
IPC主号:

专利说明:

thirty
ate
O5
with
four
 ABOUT
This invention relates to devices for handling heavy loads.
The purpose of the invention is to increase reliability.
Fig, 1 shows a device, side view; in fig. 2 - the same, top view; Fig, 3 - the same, rear view; Fig. 4 is a diagram of a pneumatichydraulic control system for manipulating the gripping tongs with a device for lifting and lowering the lift. mechanism and stabilization link; FIG. 5 is a side view of the device for moving heavy loads (for example, plates); in FIG. 6, the same, from above; Fig, 7 - the same, rear view.
The device for lifting and lowering the load comprises a main frame I having two supporting box-shaped beams 2 and 3 arranged in parallel with the possibility of covering the load 4, a lifting mechanism including a lifting frame 5 having two lateral 6 and 7 and one transverse 8 elements. One ends of the side elements 6 and 7 are attached by first hinges.
9 and 10 with coaxial transverse axes to the main supporting beams 2 and 3, which can be rotated relative to them, and to the other ends of the side elements 6 and 7 the transverse element 8 is rigidly attached. There is a tong-and-tackle gripper 11 attached to the transverse element 8 of the lifting mechanism by second hinges. 12 and 13 with coaxial transverse axes with the possibility of rotation relative to them. First 9 and
10 and the second 12 and 13 hinges are spaced apart from each other in the longitudinal direction. Raising and lowering the lifting mechanism.
F is carried out by the device 14 with respect to the main frame 1, There are also tools 15 and 16 for driving the tongs 17 and 18 of the load gripper 11 and the tool 19 for limiting the lateral movement of the lifting mechanism with the tong clamping
11 relative to the main frame 1. Stabilization link 20 is installed between the main frame 1 and the tick bite load carrier 1 1 in the longitudinally spaced hinges 21 and 22 and is adjustable in length, for example, in the form of a double acting hydraulic cylinder.
Fixture 19 for limiting the lateral movement of the lifting mechanism comprises elements 23 and 24
five
0
five
0
five
0
five
0
five
slides mounted on the load gripper 11 with the ability to interact with the sliding surfaces 25 and 26, made on the supporting beams 2 and 3 of the main frame 1 over the entire lifting range of the tick-borne load-holding 11,
Frame 1 is the frame of the trailer 27, connected by a coupling 28 to a tire 29, the latter has an engine 30 and driving wheels 31, a pair of control drives 32 installed between the wheel and a coupling 28, makes it easier to swing the tractor relative to the trailer. The operator's cabin is attached to the coupling 28,
The wheels of the trailer 27 are fixed on the back of the beams 2 and 3, the configuration of the main frame 1 is such that the rim 27 can pass through the load when driving. Cargo is depicted in the form of blanks.
Tick-borne grip includes a frame 33, to which the middle parts are attached to the pliers 17 or 18 by hinges 34 and 35, the lower parts of the pincers are adapted to grip the load, then, as their upper parts are pressed by the actuator, which is the hydraulic cylinders 36 and 37, Pliers can have different configurations depending on the shape, size, weight, and t, d, used goods.
The device 14 for raising and lowering the lifting mechanism is hydraulic cylinders 38 and 39 mounted between the supporting box-shaped beams 2 and 3 and the opposite ends of the transverse element 8 of the lifting frame 5.
Stabilization link 20 is positioned between the main frame 1 and the tong pick-up 11, the joint hinges of this link are placed so that when viewed from the rear they coincide with the hinges 9, 10, 12 and 13, forming a parallelogram when viewed from the side. With such an arrangement, the tick-borne cargo-holding 11 is held in the same position relative to frame 1, despite the lifting of frame 5, it suffices to install one link. 20 stabilization in order to retain the load gripper 11, the Link, when it is performed in the form of a hydraulic cylinder, may have another function consisting in installing the load gripper 11 relative to the main frame 1, in order to facilitate the work on the floor when the load to be lifted, is not in the same horizontal plane as the vehicle, as may occur on an uneven surface. In such a case, the ability to change the length of the link 20 and, therefore, the position of the load gripper 11 relative to the main frame 1 may be useful.
The variable length of the link 20 can also serve to absorb shocks when connected to a pneumohydraulic accumulator in a pneumohydraulic control system (Fig. 4). With such a device, at least part of the shock load produced, for example, by holding one grip on the load, can be absorbed by the battery faster than it is re-. given through the frame.
Consider the case when a load, such as a steel plate, rises and the stabilization cylinder is installed so that a parallelogram is obtained (Fig. 1). After that, if necessary, the link cylinder is adjusted so as to keep the slab in the desired position relative to the ground, despite the height to which the load is lifted. A small load is assumed when setting the position, since the parallelogram device automatically maintains the desired position.
The device is controlled by the control system (Fig. 4).
Manual pneumatic control is contemplated to optionally actuate the cylinders 38 and 39 along the retaining frame, the rear pliers drive cylinder 37, the front pliers drive cylinder 36 and the stabilization cylinder 20.
The hydraulic pump 40 (FIG. 4) supplies a pressurized hydraulic fluid to the four three-position slide valves 41-44, which independently control the operation of the driving cylinders. The relief valve 45, located between the pump outlet and the spool valves 41-44, limits the pressure in the system.
The three-position hydraulic spool valve 41 associated with the cylinder 37 is normally kept in the off position by means of a double acting pneumatic vane cylinder A6 with centrifugal springs. Manual pneumatic valve dstvti (not shown) can
optionally driven in order to supply compressed air to one of the parts of the vane cylinder 46, shear the internal piston and in turn drive the hydraulic slide valve 41. The pressure from the pump 40 is hydraulic fluid, which is normal
0 passes through valve 41 and can get into any of the successive valves 42-44 when the first one is in the neutral position, it passes through the spool valve 41 to any 5 scientific research institute 47 or 48, depending on whether it is necessary to compress or release the corresponding tongs. When line 47 is pressurized, hydraulic fluid is supplied to the control unit.
0 valve 49 (shown schematically) in front of cylinder 37. Fluid in line 47 can flow freely through check valve 49 into cylinder chamber 50, but can exit from there
5 only when the pressure in line 48 exceeds the pressure in line 47 by a certain minimum. This guarantees against inadvertent release of the load, which can occur when the spool valve
0 41 returns to its neutral position or, in the event of hydraulic damage, above control valve 49.
The flow of compressed hydraulic fluid into the chamber 50 of the hydraulic cylinder 37 causes the rod 51 to turn to the left (Fig. 4), which in turn causes the rear pliers 18 to compress (Fig. 1). After
0, the load is captured, in the absence of pressure in line 48, the fluid in chamber 50 keeps the rod 51 extended, the pneumatic-hydraulic accumulator 52 is connected between the check valve 49
5 and cylinder 37 to provide shock absorption function and pressure in chamber 50. A pressure gauge 53 in the operator’s cabin can be used to visually indicate the pressure of the gripper.
The hydraulic system associated with the operation of the front pliers cylinder 17 is similar to the cylinder of the rear pliers 18.
In the control system, cylinders 30 and 3l are controlled by a single pneumatic valve (not shown) of a manual actuator that controls a vane cylinder 54 acting on a hydraulic slide valve 43. For the lifting operation, line 47 is filled with hydraulic fluid that passes through valve 43 and is directed to the cylinders AOR and. The pressure of the hydraulic fluid acts on the pistons 48 and 49, forcing simultaneously to push the rods 55 and 56,
The parallel arrangement of the cylinders 38 and 39 may be the case. when the load, which is unevenly distributed from side to side, irregularly forces pushing the rods 55 and 56, this can easily lead to limiting the amount of torsion of the mast. Since the cylinders 38 and 39 are connected, the pull-in of their rods under the action of the weight of the load, or taken out, or as a result of an unexpected hydraulic disturbance will be simultaneous. Pneumo-hydraulic battery 57, like battery 52, provides shock absorbing function when the vehicle is moving, a load on an uneven surface. The amount of pressure on the indicator 58 in the operator's cabin shows the pressure in the lift cylinders, providing an indication of the size of the load.
The operation of adjusting the link 20, When controlling the catching and lifting cylinders, a manually controlled pneumatic valve (not shown) feeds compressed air into the vane cylinder 59 to selectively engage the hydraulic slide valve 44. To increase the length of the link 20, line 60 becomes pressurized with hydraulic fluid Hydraulic fluid enters link 20 through inlet 61 and acts on piston 62 to move it to the left (FIG. 4). The hydraulic fluid exerting pressure from chamber 63 when piston 62 moves to the left returns through slide valve 44 to return line 64 of hydraulic reservoir 65. Pneumo-hydraulic accumulator 66 is connected to line 60 to absorb any hydraulic pressure waves due to careless impact. on the tick-borne load gripper 11, being transmitted as the force of pressure on the link 20,
In a similar way, the length of link 2 can be shortened by activating spool valve 44 to increase the pressure in line 67. When the hydraulic fluid under pressure fills chamber 63, the piston 62 moves to the right and acts on the liquid in chamber 68 line 60 through spool valve 44 to reservoir 65, Pneumo-hydraulic accumulator 69 is connected to
line 67 to absorb, which are transferred to link 20, as tensile forces.
Pressure gauges 70 and 7 may be located in the operator’s cabin.
for visual indication of hydraulic pressure in lines 60 and 67, respectively. Since the goal of link 20 is to support tick-borne gripping and load
in a position that they tend to adopt under the influence of gravity, in the ideal case there should be no squeezing or stretching. Under such circumstances, pressure on indicators 70 and 71

权利要求:
Claims (4)
[1]
should be the same - around zero. If the pressures on indexes 70 and 71 are significantly different, the misaligned load is adjusted. Invention Formula
1 o A device for lifting and lowering a load containing a main frame having two supporting beams arranged in parallel with the possibility of covering the load, a lifting mechanism including a lifting frame having two side and one cross elements, one kilo of the side elements attached first joint with coaxial transverse
axes to the main supporting beams can be rotated relative to them, and to the other ends of the side elements a transverse element is firmly attached - a tick-borne grip, attached to the transverse element of the lifting mechanism by secondary hinges with coaxial transverse axes that can be rotated relative to them, the first and second
the hinges are spaced apart from each other in the longitudinal direction, a device for raising and lowering the lifting mechanism with a tong pickup relative to the main frame,
a way to drive pincers and a device to limit the lateral movement of the lifting mechanism with a tick, a load gripper relative to the main frame, so that, in order to increase reliability, it is equipped with a load stabilizing link, the ends of which are installed between the main frame and the tong claw longitudinally spaced hinges forming a parallelogram with the first and second hinges when viewed from the side.
[2]
2. The device according to claim 1, is different. in that the device for limiting the lateral movement of the lifting mechanism comprises a pair of sliding elements.
installed on the tick-borne grip with the ability to interact with sliding surfaces made on the supporting beams of the main frame over the entire lifting range of the tick-borne grip grip.
[3]
3. The device according to claim 1, characterized in that the stabilization link is made adjustable in length.
[4]
4. Device on PP. 1 and 3, -o t - wherein the stabilization link is a double acting hydraulic cylinder.
36 (37)
Fi.g.2
eight
17 (18}
Fig.Z
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u t
.% B
/ 13
36i37)
FIG. 7

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法律状态:
2007-09-20| REG| Reference to a code of a succession state|Ref country code: RU Ref legal event code: MM4A Effective date: 20031113 |

优先权:

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申请号 | 申请日 | 专利标题

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US06/645,910|US4601630A|1982-09-30|1984-08-29|Load handling apparatus|

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