RU2083479C1 - Hand load-lifting device - Google Patents

Abstract

FIELD: mechanical engineering, agriculture, small-scale mechanization devices. SUBSTANCE: hand load-lifting device has carrying boom with cradle for load installed on uprights for shifting into upper position. Boom has rigid tie-rod and flexible pull member coupled with cradle. According to invention movable and telescopic units are rigidly secured on central upright. Movable unit serves to shaft cradle with load from lower position (on the ground) into upper position (onto body bottom) through 180 degrees which is effected owing to tilting of movable unit at angle to vertical. Load-lifting device is easy to disassemble and, when stripped down, it can be carried to places of storage of farm products in containers, in the field or in non-equipped stores. Device does not required power supply and provides two-fold reduction of labour input. EFFECT: enlarged operating capabilities. 4 cl, 4 dwg

Description

 The invention relates to mechanical engineering, in particular to means of small-scale mechanization for vehicles transporting agricultural products from fields and unequipped warehouses.

 Known hoisting device containing a cargo platform with rails mounted on the drive of its vertical movement, and a carriage mounted in rails with the ability to move it with the drive in the horizontal plane (ed. St. N 1312069, class B 66 F 7/28, 1987).

 A lifting device is known comprising a support, a boom with a cradle, and a holder including a housing and an axis, to the upper end of which a carrier boom is attached by an eye. The presence of rotary and boom lifting drives provides the cradle with a load secured to the second end of the boom (ed. St. N 240798, class B 66 F 11/04, 1967).

 A disadvantage of the known devices is the inability to use them in the field or in conditions of unequipped warehouses due to the lack of a power source and the difficulty of performing operations in manual mode.

 The technical result of the invention is to facilitate lifting and lowering of loads in a manual lifting device.

 This is achieved by the fact that in a lifting device comprising a support bearing a boom mounted on the latter by means of a holder including an axis, to one end of which a carrier arrow is attached at one end by a plate, and the cradle mounted on the second end of the supporting boom, the support comprises three racks, the holder is mounted on the central of the racks and placed at an angle to the vertical, the holder body is cylindrical, and its axis is connected to the said body by means of a thrust bearing and connected by the upper the end with the first end of the supporting boom and the lower end is connected to rotate the boom when lifting the cradle with one end of the tensile spring, the other end of which is fixed to the central post, the cradle is pivotally attached to the second end of the supporting boom by means of a flexible element enveloping with one the holder and attached ends respectively to the cradle and the rack, while the device is equipped with a telescopic assembly, including coaxially located inner and outer tsil cores, the first of which is rigidly fixed on the central rack, and the second on two other racks with the possibility of movement relative to the first to control the cradle lifting height, and a rigid rod, one end of which is connected to the aforementioned plate, and the other to the carrier boom, the latter equipped with a handle the operator.

 In both cylinders of the telescopic unit, through holes are made perpendicular to the geometric axis of the cylinders for connecting these cylinders to each other with a fixing finger. To regulate the height of the cradle on the inner cylinder of the telescopic unit, a vertical row of through holes is made.

 To regulate the tilt of the cradle to the horizontal, a square is rigidly mounted on it, on which a series of holes are made for installing the corresponding end of the flexible element in them.

 The device is easily disassembled and when folded it is transported to the places of storage of agricultural products in containers (in the field or in warehouses not equipped with power sources). When using the proposed device, the work of the loader is approximately twice as easy.

 In FIG. 1 shows a General view of the proposed device; in FIG. 2, view A in FIG. one; in FIG. 3, section AA in FIG. 2; in FIG. 4 section BB in FIG. 2.

 The device contains a boom 1, mounted with the possibility of rotation around its axis on three pillars: central 2, right and left side pillars 3 (right mirror image of the left). One end of the boom 1 is pivotally mounted on the cradle 4, and the other end is connected to a holder 5, rigidly mounted, for example, by welding on a central post 2. The holder 5 is inclined to the vertical at an angle α and includes a cylindrical housing 6, in which on the thrust bearing 7 axis 8 is installed.

 The upper end of the axis 8 is rigidly connected to the boom 1 by a plate 9 with a V-neck (not shown), in which one end of the rigid rod 11 is fixed by means of a bolt connection 10, and the other end of the rod is made in the form of a hook and is fixed in the hole 12 made on the plate 13 welded to the boom 1. The lower end of the axis 8 is connected with a tension spring 14, mounted on a Central rack 2.

 An operator handle 15 is mounted on the boom 1 to move the cradle 4 from a lower position to an upper position or vice versa.

 A flexible traction element 16, such as a rope, is fixed at one end rigidly to the central rack 2, and its other end is mounted in one of a series of holes 17 made on the square 18, rigidly, for example, by welding, mounted on the end of the cradle 4, to maintain a constant angle of inclination cradles b to the horizontal when the arrow moves.

 The device is equipped with a telescopic unit for adjusting the height of the load and includes an external movable cylinder 19, rigidly connecting the side struts 3, and an internal stationary cylinder 20, rigidly fixed in the Central rack. A through hole 21 is made on the walls of the cylinder 20 perpendicular to its geometrical axis, and a series of reciprocal through holes 22 are made on the walls of the inner cylinder 19. Racks 1, 2 have supporting shoes 23.

 The device operates as follows.

 Depending on the type of transport, it is necessary to pre-adjust the telescopic unit before starting work by fixing with your finger 24 the holes 21 in the corresponding required height of the opening of the row 22. Fixing in the lower opening of the row 22 corresponds to the minimum height of 1.5 m. If necessary, removable weights are mounted on the support shoes 23 preventing rollover device.

To load the car you need bags (boxes) from ground level to the height of the body. The lifting device is at ground level in the initial position: the carrier boom 1 with the cradle 4 is at ground level, the spring 14 is maximally stretched, the boom holder system is in an unstable state of equilibrium. The operator places the load in the cradle 4 and the rotation of the handle 15 turns the boom 1 with the cradle 4 around the axis. In this case, the cradle with the load moves along an arc of a circle centered on axis 8 in a plane inclined to the vertical at an angle a. Moreover, in the position on the ground, the angle between the boom and the end wall of the cradle g is smaller than in the position at height due to the operation of the flexible element 16. The spring 14 is unloaded and, compressing, reduces the operator's effort to lift the load. When the arrow is rotated 180 ^{°, the} cradle 4 with load reaches the height of the side of the machine. Spring 14 is minimally stretched at this time. The second operator, located in the car body, removes the bag from the cradle and places it in the car body. Then, the loader operator returns the device to its original position by turning the handle 15, overcoming the resistance of the tensile spring. In this case, the flexible element 16 maximally bends around the circumference of the holder 5.

 Upon completion of loading, the device is folded into a position convenient for transportation. For this, the boom 1 is set to its original position and fixed, for example, with a rope. Removable loads are removed, finger 24 is removed from the holes of the telescopic assembly, separating the side posts 3, rigidly connected by cylinder 19, from the device. The dimensions of the device when folded can be 100 x 2500 x 600 mm.

Claims (4)

 1. A manual lifting device comprising a support, a boom mounted on the latter by means of a holder including an axis, to one end of which a carrier boom is attached at one end by a plate, and a cradle mounted on the second end of the carrier boom, characterized in that the support contains three racks, the holder is mounted on a central rack and placed at an angle to the vertical, the holder body is cylindrical, and its axis is connected to the body by means of a thrust bearing and connected to the upper end with the first end of the boom, and the lower end is connected to rotate the boom when lifting the cradle with one end of the tensile spring, the other end of which is fixed to the Central rack, the cradle is pivotally attached to the second end of the supporting boom and is connected to the Central rack by means of a flexible element enveloping on one side the holder and the ends attached respectively to the cradle and stand, while the device is equipped with a telescopic assembly including coaxial inner and outer cylinders, the first of which is rigidly closed it is insulated on the central rack, and the second on two other racks with the possibility of moving relative to the first to regulate the cradle's lifting height by a rigid rod, one end of which is connected to the said plate and the other to the carrier boom, the latter being equipped with an operator handle.  2. The device according to claim 1, characterized in that through holes are made in both cylinders of the telescopic assembly perpendicularly to the geometric axis of the cylinders for connecting these cylinders to each other with a fixing finger.  3. The device according to claim 2, characterized in that for the adjustment of the lifting height of the cradle on the inner cylinder of the telescopic node, a vertical row of through holes is made.  4. The device according to claim 2, characterized in that for adjusting the tilt of the cradle to the horizontal, a square is rigidly mounted on it, on which a number of holes are made for installing the corresponding end of the flexible element in them.

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