SU1521359A1 - Apparatus for weighing biological yield of farm crops - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to crop weighing devices. The aim of the invention is to simplify the design, improve measurement accuracy and productivity. The device includes a platform 1 with sides 2-4, pivotally mounted on frame 8, a hydraulic lift 15, load-bearing units in the form of hydraulic cylinders 25 with compression dynamometers. The hydraulic cylinders 25 are located at three points of the frame 8 and are interconnected in parallel, the rodless cavities of the two hydraulic cylinders 25 are connected to the discharge line through shut-off valves. When pressure is applied to the hydraulic cylinders 25, the piston rods of these hydraulic cylinders are raised together with compression dynamometers and raise platform 1. After determining the yield mass, the rods are reset. The distortion of the platform 1 at the time of weighing and during lifting is eliminated by one of the gate valves of rodless cavities. 3 hp f-ly, 9 ill.

Description

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to crop weighing devices.

The aim of the invention is to simplify the design, improve measurement accuracy and increase productivity.

FIG. 1 shows a device for weighing a biological yield of harvested agricultural crops, mounted, for example, on a two-axle tractor dump trailer in an aggregate with a tractor; in fig. 2 shows the preferred locations for the load units on the trailer frame, plan view; in fig. 3 - the same, side view; in fig. 4 - dumping two-axle trailer with added sides at the time of weighing bulk loads (chopped grain weight, straw, meadow hay, baled straw, cotton, etc., loads); in fig. 5 shows the node I in FIG. 4, side view of the force-measuring unit, placed on the frame side member; in fig. 6 -

Section A-A in FIG. 2, the cross section of the force-measuring unit on the trailed frame bracket, in FIG. 7 is a section BB in FIG. 6; in fig. 8 is a sectional view BB in FIG. 4, a section of the unloading mechanism of the trailer tank; in fig. 9 is a hydraulic diagram of the interconnection of power cylinders with a separate aggregate hydraulic system of the tractor being aggregated.

Trailer tank formed by the platform 1 and the main sides 2-4. The extension boards 5–7 to increase the volume of the trailer tank (up to 45 m and more) are used for the transport of bulky goods (hay, raw cotton, chopped and pressed straw, etc.) (see Fig. 1–4). Platform - m; pivotally mounted on frame 8 and with respect to it can be tilted for tilting during unloading on its side at an angle of 45 ° and backward at an angle of 50 °. Under the frame 8 are placed t govo-coupling device 9, front 10 and rear 1 1 axle with hub. And

SP 1chE

00 pr

with

wheels 12, front 13 and rear 14 of the suspension and hydraulic lift 15 of the unloading mechanism, as well as the braking system, stand and electric equipment (not shown).

The frame 8 of the trailer (see Figs. 2 and 3) is of welded construction and consists of two stamped spars 16 and 17, interconnected by crossbars. In the middle part of the frame 8 between the crossbars 18 and 19, the bottom plate 20 of the hydraulic ram 15 is welded in (see Fig. 8). On the crossbars 21 and 22 there are four support brackets 23 for swivel connection with platform 1. Spars 16 and 17 of frame 8 are additionally welded with four buffers (spring bumpers) and two mounting brackets for wheel chocks. A hook bracket 24 is welded to the rear cross member 22.

The force unit of the device for weighing the biological yield of agricultural crops (see Fig. 1-7) is made in the form of hydraulic cylinders 25 with a pressure gauge 26 compression (see Fig. 5 and 6). The cylinders 25 are made with a stroke of piston rod 27 equal to 00 ± 1 mm. The bottom 28 of each of the cylinders 25 of the threaded pin 29 and the nut 30 is connected with an L-shaped bracket 31 or 32 of the welded structure. The brackets 31 and 32 of the power cylinders 25 are fixed on the frame 8 (see FIG. 2) at its base points, mainly along the triangle BepHJHHaM. The brackets 31 (see FIG. 5) are connected by means of a pair of pins 33 and bolts 34 to the side members 16 and 17 spaced apart from each other by the amount of the transverse base of the frame 8. The bracket 32 is connected to the frame 8 by means of a finger 35 of the hook bracket 24 and two pairs of 36 and kerchiefs 37 L-shaped bracket .32 (see Fig. 6). The hook bracket 24 is placed in the middle part of the cross member 22 of the frame 8. Such a coupling, the power cylinders 25 with compression dynamometers 26 on the frame 8 of the chained carriage, allows to obtain an unambiguous mass of the crop to be removed regardless of its distribution on the surface of the platform 1, so as the sum of indications from the loads of the weighed mass on the compressors dynamometers 26 remains unchanged. This condition eliminates errors in measurements of the mass of the harvested culture.

Dynamometers 26 squeeze on the rods 27 of power cylinders 25 are placed on prisms 38 and fixed by stoppers 39. In the prism 38 of the bracket 31 a compression dynamometer 26 is placed, for example DOSM-3/02, with measuring limits O-3000 kgf and a limit error 1 ± 0.5 kg 2 accuracy class. In the prisms 38 of the brackets 32, compression dynamometers 26 are placed, for example DOC.M-1/02, with measurement limits O-1000 kgf with a limit error of 5 ± 1 kg 2 of accuracy class. Digital Indi Scale

five

.. 5 0 0 5.

with

Compressors 40 dynamometers 26 are calibrated with exemplary dynamometers of the same limit values according to accuracy class 1.

For production needs, compression dynamometers 26 can be replaced by compression rings 41 (see FIG. 7), calibrated for ultimate loads. The readings from rings 41 are counted according to the changed state of the rods 42 and 43. The limit error of the rings 41 fixed on the prisms 38 of the hydraulic cylinders 25 on the brackets 31 does not exceed ± 10 kgf, and on the brackets 32 - not higher than ± 15 kgf.

The hydraulic lift 15 of the tilting mechanism of the platform 1 (see Fig. 8) is intended for unloading the trailer and is made in the form of a telescopic three-stage hydraulic cylinder of four steel pipes 44-47. The inner tube 47 in the upper part is equipped with a ball support 48. The bottom 49 of the hydraulic ram is fixed to the lower part of the outer pipe 44 by means of a threaded connection with a rubber seal 50 and placed on the lower ball bearing 51. In turn, the support 51 is rigidly connected to the bottom plate 20 frame supports 8. Each of the three cylinder stages is sealed with a rubber seal 52 and cleaning rings 53. A planar support 48 is placed in a telescopic cup 54 equipped with a grease nipple 55 and a locking ring 56 fixing the relative position of the support 48 with Tacan 54. A telescopic cup 54 on a sliding fit is placed in a cap 57 fixed on platform 1. The lower ball bearing 51 with the bottom of a hydraulic lift is fixed by a stopper ring 58. In the middle part of the outer tube 44 times. in the cavity of the steps of the hydraulic cylinder in the form of pipes 45-47. To protect the sealing rings 53 from extruding into the sealing gap, each of them has a protective sleeve made of fluoroplastic or technical leather.

The hydraulic arms 25 of the brackets 31 and 32 (see Figs. 2, 3 and 9) are interconnected in parallel by means of fittings 60 and 61 and connected by pipelines 62 and high pressure hoses 63 to the side sections 64 of the distributor of the aggregate system of the base tractor 65 (see Fig. 1). The rodless cavities of the hydraulic cylinders 25 mounted on the brackets 31 are connected to the discharge line P through the stop valves 66. The valves 66, when their rods are screwed in at the moment of lifting the platform, the rods 27 of the hydraulic cylinders 25 ensure uniform and without distortions of the platform G relative to the frame 8.

The device works as follows.

When harvesting agricultural crops, a trailer with a weighing device together with a tractor 65 moves a parallel course with a combine (corn, silage, beet harvester, fodder, etc.) combine. The harvested mass is transported by the conveyor of the combine into the trailer container of the carriage formed by platform 1, sides 2-4 and, if necessary, extension boards 5-7. At the completion of the mowing of the control area, the tractor 65 with the trailer is stopped. The tractor driver includes a hydraulic distributor section controlling the hydraulic cylinders 25 of the weighing device. When pressurized from side section 64, oil enters pipelines 62 and sleeves 63 into rodless cavities of hydraulic cylinders 25, and piston rods 27 of these cylinders are lifted and, through prisms 38 with compression dynamometers 26, raise platform 1. The operator reads the readings from digital indicators 40, produces writing them to a field book and summarizes their values. The mass of the harvested culture from the control section is equal to the difference between the weight of the filled tank and the empty mass, determined in a similar way before the start of the experiments. When harvesting from a series of control cases, the weight of the crop is determined as the difference in the amounts of their previous and subsequent, their readings of compressors dynamometers 26. After determining the mass of the mowed or reaped crop from the harvested area, the rods 27 of the hydraulic cylinders 25, together with the compression dynamometers 26, are reset to the original position by moving the handle of the hydraulic control valve of the separate aggregate tractor 65 to the “Lowering” position. As the trailer is filled, the tractor 65 transports the filled trailer to the processing or storage sites of the harvested crop. Before starting the unloading, the sides 3 and 4 are opened. To empty the trailer capacity of the trolley, the tractor operator dismounts one pair of pins to swivel the platform with the brackets 23, thereby allowing the hydraulic ram 15 of the unloading mechanism to tilt the platform to the side or back. For this purpose, the distributor lever, which controls the hydraulic lift 15 of the unloading mechanism, is moved to the "Lifting. Oil under daBv Eni nozzle 59 enters the cavities between the walls of pipes 44 and 45, 45 and 46, 46 and 47, and the force generated through the ball bearing 48, telescopic cup 54 and cap 57 is transferred to platform 1, causing it to turn around a pair of pas; : brackets in brackets 23. When tilting the platform to the side at an angle of 45 and 50 ° back

0

5 0 5 0 5,. 50

five

sliding the load from the platform 1. After the load from the platform 1, the distributor lever is moved to the floating position and under the weight of the platform 1 the hydraulic lift 15 of the unloading mechanism returns to its original position. A tractor driver, with a pair of disassembled pins, rigidly fixes platform 1 on brackets 23 of frame 8.

The unloading of the trailer tank with the extension boards 5-7 is performed only backwards.

When weighing loads in the trailer tank at the moment of lifting the platform I by the hydraulic cylinders 25, the shar support 48 together with the cup 54 remains in place due to the frictional forces between the pipes 47, 46, 45 and 44, the viscosity of the oil and vacuum created in the pipelines 62 and the hoses 63 high pressure, and platform 1, together with cap 57, rise along cup 54 without causing additional loads and thus no errors are introduced into the measured masses.

Claims (4)

1. A device for weighing the biological yield of agricultural crops, containing a trailer tank in the form of a platform with sides on a mobile frame, a mechanism for unloading this tank and a measuring mechanism, characterized in that. in order to simplify the design, improve measurement accuracy and labor productivity, the measuring mech .:: meas is made in the form of moving load-bearing blocks placed on the mobile frame at three points and installed with a gap relative to the mobile frame under the platform, and its unloading mechanism is equipped with a trace n, the device connecting the mobile frame with the unloading mechanism of the trailed capacitor. 2.5 The device according to p. I, is different from those that the cvto is surplus b, the current is made in the form of a power cylinder and a compression dynamometer with an indicator of force magnitude placed on the rod of the power cylinder by means of a prism, and the bottom of the cylinder is connected to the mobile frame with an L-shaped bracket. 3. The device according to paragraphs. 1 and 2, characterized in that the rodless cavities of two power cylinders are connected to the supercharger, which is connected to the main hydraulic network by means of shut-off valves. 4. Device on PP. 1-3, characterized in that the following device is made in the form of a telescopic mechanism, including a telescopic cup mounted on the cary support of the unloading mechanism, and a cap mounted on the mobile. Noah frame. ///////// ///; G ////////// // ///// / U / // //// // ////////// /// /// 12 12/5 ///////// // u ////// // 7 //////////// /// / // /////// / / phage.Z 23 FIG. 2 I / o. IS 7 s 40 20 FIG. eight WITH-//, iW