CZ37687U1 - Equipment for soil working in growing wide-row crops - Google Patents

Description

Equipment for the processing of agricultural land in the cultivation of wide-row crops

Field of technology

The technical solution refers to equipment for the processing of agricultural land in the cultivation of wide-row crops, such as sugarcane, corn and potatoes.

Current state of the art

It is known that wide-row crops are grown in rows that are surrounded on both sides by a pair of parallel inter-rows. When growing broad-row crops, the soil is exposed to a relatively high risk of erosion. Therefore, the rules of soil protection measures were established, failure to comply with which may even result in the withdrawal of subsidies for agricultural activity. Various technologies are used to mitigate this negative ecological and economic phenomenon and at the same time to increase the efficiency of water retention in the landscape.

One of them is tillage in strips, where in one strip, or the row is fully tilled, while the adjacent strip is left untreated, i.e. with plant residues left. The advantage is the improvement of soil conditions for the broad-row crop and lower loss of water through evaporation.

Stakes or pits are sometimes used to retain water from rain and snow. The dyke technology consists in the creation of small accumulation ditches in the inter-rows, which prevent concentrated surface runoff, whereby the dykes promote the retention of water directly on the plots. Pitting, in which short pits are created instead of long dykes, has similar effects, especially in sloping terrain.

Another technology is, for example, sowing in mulch or sowing in a protective crop.

The disadvantage of the known technologies is that they are carried out at intervals, which means that multiple entry into the field is necessary, each time with a different special machine or device. This is economically burdensome as well as the fact that the soil is repeatedly compacted.

The essence of the technical solution

The mentioned disadvantages are substantially reduced by the equipment for the processing of agricultural land according to the technical solution, which includes a frame, the front part of which is provided on the one hand with connecting members of a three-point suspension and on the other hand with a support device containing at least one height-adjustable travel wheel. The shoulder blades are attached to the bottom of the frame at a distance equal to the distance between the rows. The essence of the technical solution lies in the fact that in the rear part of the frame, at a distance equal to the distance between the rows, individual weir devices are adjusted. Each piling device contains a carrier, the upper part of which is fixed on the back of the frame. The middle part of the carrier is equipped with a guide in which the vertical tie rod is securely mounted. A staking blade is attached to the lower end of the vertical tie rod. The upper end of the vertical rod is rotatably connected to the rear end of the horizontal double-reversible lever, which is rotatably mounted in the upper part of the carrier. The forward end of the double-reciprocating lever is coupled to a source of reciprocating motion between the two dead ends. The source of reciprocating motion includes a motor that is mounted on the frame. The rear part of the carrier is equipped with a seeding device for auxiliary crops, which contains a seed tube, the mouth of which is hidden behind the staking blade.

In one advantageous embodiment, the source of reciprocation is moved by a tangential cam rigidly connected to the engine, while the front end of the double-reciprocating lever is modified in the form of a flat lifter.

- 1 CZ 37687 U1

In order to stabilize the sowing of the auxiliary crop in the inter-rows, an inclusion device for the seeds of the auxiliary crop is arranged in the lower part of the carrier, behind the mouth of the seed tube.

The inclusion device includes an arm, one end of which is rotatably mounted in the lower part of the carrier by means of a support pin, and the other end of which is equipped with an inclusion element. The inclusion element is selected from the group consisting of an inclusion blade and a rotary inclusion disc. A bed is formed on the carrier, between which and the arm is placed a spring with a force effect towards the bottom of the stake.

The mouth of the vas deferens can be arranged in two alternatives. Within one of them, there is a gap between the staking blade and the support pin of the arm. In another embodiment, the mouth of the vas deferens is arranged between the support pin of the arm and the inclusion element.

If the inclusion element is an inclusion disk, in an advantageous embodiment it contains a central cylindrical part, to both of whose faces the outer parts in the shape of a truncated cone adjoin with their smaller bases.

The advantage of equipment for the processing of agricultural land according to the technical solution is that, with relatively low acquisition and operating costs, it makes a substantial contribution to better management of rainwater.

Clarification of drawings

The attached drawings schematically show the equipment for processing agricultural land according to the technical solution, where Fig. 1 is an axonometric view of the equipment with two seeding and covering devices, Fig. 2 is a side view of the device with the covering device containing a spring-loaded covering blade instead of a fixed shoe, Fig. 3 the same as in Fig. 2, but the inclusion device includes an inclusion disk, Fig. 4 the same as in Fig. 3, with the difference that the mouth of the vas deferens is in a different position and the working phases of the device are shown here, Fig. 5 is an enlarged drawing view of the inclusion disk.

An example of the implementation of a technical solution

The method of processing agricultural land described in the following embodiment is intended for the cultivation of wide-row crops as the main crops, the most important of which are potatoes, sugarcane and corn. The method of processing can include two different initial alternatives. In the first of them, after the harvest of the main crop, the interrows are subjected to threshing and sowing with an auxiliary crop. The auxiliary crop in the rows will last through the winter, or it will freeze. Whether it survives the winter or freezes, in both cases the auxiliary crop has a positive effect on maintaining water in the soil. The second initial alternative will be started only after the beginning of the new vegetation period of the main crop, after the emergence of its sowing. Whatever the nature of the initial alternative, it means that the soil will be subjected to at least one weeding in the inter-rows from the previous harvest to the period after the emergence of a new wide-row crop, namely a single weeding in the case of the second initial alternative and two weedings in the case of the first alternative. Mulching disrupts the soil crust, loosens the soil and disrupts the weed cover. Immediately after seeding, ridges are created in the inter-rows, into the convex and concave parts of which the auxiliary crop is continuously sown. It is expedient if the auxiliary crop is sown immediately after sowing with soil from between the rows. In order for the protective effect of the auxiliary crop to be fully manifested, a variety whose vegetation period ends at the time of the harvest of the broad-row crop is selected.

For the processing of agricultural land during the cultivation of wide-row crops, as the main crops, the device is used, which contains a frame 1, the front part 11 of which is equipped with connecting members on the one hand

- 2 CZ 37687 U1 three-point suspension 14 and, on the one hand, a support device 2 containing at least one height-adjustable travel wheel 21 (fig. 1 to 4). Using a three-point hitch 14, the device is connected to the back of a tractor or similar towing device. The traveling wheel 21 is adapted for rolling in the track furrow. The track furrow is one of the intermediate rows. The travel wheel 21 is mounted on a leg 22 which, for the purpose of height adjustment, is slidably mounted in a socket 23 equipped with a locking device not described in detail. From the point of view of stability, it is expedient if two traveling wheels 21 (Fig. 1) are attached to the frame 1, each of which travels in its own track.

To the bottom 12 of the frame 1, from the point of view of the direction r of forward movement, behind the support device 2, a swathing device 3 is attached, the main element of which is the shoulder blades 32. In the embodiment example in Fig. 1, there are two shoulder blades 32, but from the point of view of productivity, it is expedient , if the number of shoulder blades 32 is greater. Each shoulder blade 32 is fixed to a hanger 31, while the hangers 31 are attached to the cross member 16, which is a fixed part of the frame 1. The hangers 31 are adjustable in the axis of the cross member 16 by means of a screw connection, not shown, so that their distance d is the same as the spacing of the adjacent intermediate rows (Fig. 1).

In connection with the rear part 13 of the frame 1, at a distance d equal to the distance between the rows, a piling device 4 is arranged. Each piling device 4 contains a carrier 41, the upper part 411 of which is fixed firmly on the rear part 13 of the frame 1, preferably by means of a partition 16. Middle part 412 of the carrier 41 is provided with a guide 44, in which the vertical rod 43 is securely mounted. A staking blade 51 is attached to the lower end 431 of the vertical rod 43. The upper end 432 of the vertical rod 43 is rotatably connected to the rear end 421 of the horizontal double-reversible lever 42, which is rotatably mounted in the upper part 411 of the carrier 41. The front end 422 of the double-reversible lever 42 is coupled to the source 6 of the reciprocating movement between the two dead ends. The source 6 of the reciprocating movement contains a motor 61, which is mounted on the frame 1. The source 6 of the reciprocating movement can be, for example, a crank mechanism (Fig. 1), on the crank 64 of which one end of the connecting rod 62 is rotatably mounted, the opposite end of which is rotatably connected to the front end 422 of the double-reversible lever 42. In a more advantageous embodiment (Fig. 2 to 4), the source 6 of reciprocating movement is the tangential cam 63, which is coupled to the motor 61 by a rigid link, e.g. a chain. The coupling of the cam 63 with the double-reversible lever 42 is carried out as that the front end 422 of the double-reversible lever 42 is adapted in the form of a flat lifter.

At the rear part 413 of the carrier 41, a seeding device 5 of the auxiliary crop is arranged, which contains a reservoir 53 connected to the seed pipe 54. The reservoir 53 is placed on a holder 15, which is attached to the frame 1. Through the mouth 56, the seed water 54 is led into the cover behind the harrow 51.

In the lower part 414 of the carrier 41, in the cover behind the mouth 56 of the sperm duct 54, the inclusion device 7 of the seeds 57 of the auxiliary crop is arranged. For this purpose, it is possible to use a shoe 52 firmly connected to the rear part 413 of the carrier 41 (Fig. 1). A substantially more suitable embodiment, however, consists in the fact that the inclusion device 7 (fig. 2 to 4) contains an arm 71, one end of which is rotatably mounted in the lower part 414 of the carrier 41 by means of a support pin 72, and the other end of which is equipped with a locking element. The inclusion element is selected from the group consisting of the inclusion blade 74 (Fig. 2) and the rotary inclusion disk 75 (Figs. 3 and 4). If the inclusion disc 75 is used as an inclusion element, its optimal design includes a central cylindrical part 751, to both of whose faces the end parts 752 in the shape of a truncated cone adjoin with their smaller bases. Regardless of the shape of the inclusion element, a bed 77 is formed on the carrier 41, between which and the arm 71 a spring 73 with a force effect towards the bottom of the stake 76 is placed. the bed 77 is formed in the support 55 firmly connected to the lower part 414 of the carrier 41. Depending on the type of auxiliary crop and the shape of the covering element, the mouth 56 of the sperm duct 54 is arranged in two different configurations. Within one of them, the mouth 56 of the sperm duct 54 is arranged between the staking blade 51 and the supporting pin 72 of the arm 71 (Figs. 2 and 4). In the second configuration (Fig. 3), the mouth 56 of the vas deferens 54 is arranged between the supporting pin 72 of the arm 71 and the locking element.

Before starting the activity, after arriving at the field, the travel wheels 21 are placed on the still uncultivated land Z1 (Fig. 4) in the respective track furrows and the height of the frame 1 above the land is adjusted so that

- 3 CZ 37687 U1 so that the shoulder blades 32 fit into the respective intermediate rows. Using the three-point hinge 14, the slope of the frame 1 is adjusted in accordance with the slope of the terrain. The tractor is activated, during which the forward movement of the blade shoulder 32 disrupts the soil crust, loosens the soil and disturbs the weed cover. In the plowed section Z2, behind the shoulder blades 32, the staking blades 51 advance in the direction r of forward movement, which additionally repeatedly sink into the inter-rows at specified intervals and subsequently slide upwards. The result of the forward movement and repeated immersion is the formation of dikes 76. The immersion and extension of the dike blades 51 is ensured by the action of the reciprocating movement source 6 coupled with the double-reversible lever 42 and the vertical tie rod 43. After the dike section Z3, there follows the seeding section Z4, in which, by means of the seed tube 54 the seed 57 of the auxiliary crop is transported to the dikes 76. The seed 57 falls on both the convex and the concave part of the stake 76. So that the seed 57 can germinate and not be carried away by the wind or washed away by the rain, in the inclusion section Z5, loose soil is brought to the seed 57, which is best done by a spring-loaded harrow 74 (Fig. 2) or a spring clamping disc 75 (fig. 3 and 4). In the next sown section Z6, seed 57 will grow an auxiliary crop with the required protective properties.

Industrial applicability

According to the technical solution, the device finds effective and at the same time economic application in the cultivation of wide-row crops, where the efficiency in managing water in the soil is given by the application of an auxiliary crop, and the efficiency and at the same time the economy of operation is given by the fact that all work operations are carried out by a single device and therefore in the immediate I follow behind.

Claims (7)

1. Equipment for processing agricultural land in the cultivation of broad-row crops as main crops, which includes a frame (1), the front part (11) of which is provided with connecting members of the three-point suspension (14) and with a support device (2) containing at least one height-adjustable travel wheel (21), while the shoulder blades (32) are attached to the bottom (12) of the frame (1) at a distance equal to the spacing between the rows, characterized by the fact that following the rear part (13) of the frame (1) they are at a distance (d) equal to the spacing of the rows, adjusted by a wedging device (4), where each wedging device (4) contains a carrier (41), the upper part (411) of which is firmly placed on the rear part (13) of the frame (1), and whose middle part (412) is provided with a guide (44) in which a vertical tie rod (43) is slidably mounted, to the lower end (431) of which a staking blade (51) is attached and whose upper end (432) is rotatably connected to the rear end ( 421) horizontal double-reversible levers (42) rotatably mounted in the upper part (411) of the carrier (41), while the front end (422) of the double-reversible lever (42) is coupled to a source (6) of reciprocating movement between two dead ends containing a motor (61) mounted on the frame (1), and at the rear part (413) of the carrier (41), a seeding device (5) of auxiliary crops is arranged, which contains a seed tube (54), the mouth of which (56) is covered behind the staking blade (51). 2. The device according to claim 1, characterized in that the return source (6) is moved by a tangential cam (63) rigidly coupled to the motor (61), while the front end (422) of the double-reversible lever (42) is adapted to the form of a flat lifter. 3. The device according to claim 1, characterized in that in the lower part (414) of the carrier (41) in the cover behind the mouth (56) of the seed duct (54) there is a device for including the seeds (57) of the auxiliary crop. 4. The device according to claim 3, characterized in that the clamping device (7) includes an arm (71), one end of which is rotatably mounted in the lower part (414) of the carrier (41) by means of a supporting pin (72), and the other end of which is equipped with an inclusion element selected from the group containing an inclusion blade (74) and a rotating inclusion disc (75), while a bed (77) is formed on the carrier (41), between which and the arm (71) a spring (73) with a force effect is placed towards the bottom of the stake (76). 5. Device according to claim 4, characterized in that the mouth (56) of the sperm duct (54) is arranged between the staking blade (51) and the support pin (72) of the arm (71). 6. Device according to claim 4, characterized in that the mouth (56) of the vas deferens (54) is arranged between the support pin (72) of the arm (71) and the locking element. 7. The device according to claim 4, characterized in that the clamping disc (75) contains a central cylindrical part (751), to both of whose faces the outer parts (752) in the shape of a truncated cone adjoin with their smaller bases.