CZ2019282A3 - Flap and line body - Google Patents

Abstract

A flap (5) of an agricultural machine for sowing and / or fertilizing arranged as part of a seed and / or fertilizer guide to an application site (6), which comprises a closing chamber (1), in the cavity (3) of which a hollow resilient insert (2) is arranged. which is pressure deformable by pressure from the cavity (3) to close the passage of the seed and / or fertilizer guide through its cavity (14), the closing chamber (1) being connected to a source (7) of control medium. The body (4) for guiding the seeds and / or fertilizer to the application point (6) of the agricultural sowing and / or fertilizing machine, comprising a flap (5) which is mounted in the interruption (10) of the channel (22) of the body (4) removably.

Description

Flap and line body

Field of technology

The invention relates to a flap, in particular a flap of an agricultural machine for sowing and / or fertilizing, and to its arrangement in guiding the seeds and / or fertilizer to the application site.

Prior art

From the current state of the art, pneumatic seed drills are known, on which flaps are used to allow the closure of some seed tube hoses during sowing, thus ensuring the formation of tramlines. Usually, mechanical dampers with a closing thumb or slide operated by an electric motor or compressed air are used. The disadvantage of these dampers is the mechanical complexity and higher production cost. Another disadvantage is the tendency for the closing thumb or slide to clog and block with jammed seed grains or dust. For this reason, conventional dampers must be sufficiently oversized and must have electromotive control with the appropriate force. This further increases the production cost.

DE 102017203854 discloses the use of a mechanical thumb flap which is pivoted by an electric motor so that it either closes the channel towards the seed tubes and the application site or closes the channel through which the grains return to the hopper when the seed supply to the application site is closed. A similar embodiment of the shut-off flap is further known from patent document DE 102015116378.

DE 102016218531 also discloses the use of a slide, which is again rotated by an electric motor to a position where the channel is opened towards the vas deferens and to the application site, or the channel is opened to drain the seeds back into the hopper when no seeds are applied.

In recent years, the use of tramline flaps on all seed lines of pneumatic seed drills has significantly expanded, which allows gradual controlled opening of flaps at the start of sowing at the sloping edge at the beginning of the field and gradual controlled closing of flaps at the sloping edge at the end of the field. This system requires a large number of flaps on the machine, and the frequency of closing cycles of each flap is significantly higher. This creates new requirements both in terms of service life and operational reliability of dampers, as well as in terms of their production cost. Classic mechanical inch or slide valves with electromotive or pneumatic actuators do not fully meet these requirements.

It is clear from the above state of the art that the main disadvantage of the prior art is that the known dampers are not completely operationally reliable, easily clogged, are complicated to manufacture and expensive, and therefore their use is very expensive where the damper is located on all vas deferens.

The object of the invention is to design a flap which is simple and inexpensive to manufacture, while also being easily replaceable, since it will be used on each channel of the vas deferens feeding the seed and / or fertilizer to the application site.

The essence of the invention

The above-mentioned drawbacks are largely eliminated and the objects of the invention are fulfilled by a flap, in particular a flap of an agricultural machine for sowing and / or fertilization arranged as part of a seed and / or fertilizer guide to an application site, according to the invention.

-1 CZ 2019 - 282 A3 in the cavity of which a hollow resilient insert is arranged, which is pressure-deformable from the cavity to close the seed guide passage and / or fertilizer by its cavity, the closing chamber being connected to a source of control medium. The advantage is that the flexible insert very simply, by inflating the pressure medium, impedes the channel for the passage of seed and / or fertilizer into the seed water hose, and thus closes it. After the pressure is interrupted, the flexible insert simply returns to its original shape by means of its shape memory and allows the seed and / or fertilizer to pass freely without the risk of clogging. A great advantage is also a very simple and inexpensive construction.

Preferably, the control medium is compressed air. The advantage is that the source of compressed air is part of the drive system, while the compressed air allows a very tight grip. The control medium can, of course, also be another pressurized gas.

It is also advantageous if at least one end of the resilient insert has a cylindrical shape by which it is removably mounted on the front of the closing chamber. It is advantageous that the end of the resilient insert is easily threaded on the front of the closure insert, enclosing the outer surface of the closure chamber with its rim and thus firmly attached to it, while at the same time perfect sealing and subsequent leakage when the pressure medium enters the closure. chambers.

It is furthermore advantageous if the control means is arranged in connection with the closing chamber and the source of the control medium, in the most preferred embodiment the control means being connected to the control means of the agricultural machine or to the control computer unit of the agricultural machine. The advantage is that the passage to the application site can be closed very simply and precisely, and thus the inclined ends of the field in particular can be sown very precisely.

It is also very advantageous if the control means is a piezoelectric valve. The advantage is that the piezoelectric valve can be easily connected to the machine control system.

It is also advantageous if the resilient insert is cylindrical or oval in cross section.

The disadvantages are further eliminated to a large extent and the object of the invention is fulfilled by a guide body, in particular a seed guide body and / or fertilizer to an application site of an agricultural sowing and / or fertilizing machine comprising the above-mentioned flap, according to the invention stored in the interruption of the channel of the body removably. A great advantage with regard to the design of the damper is its simple and quick replacement in the event of a malfunction.

Preferably, the flap is mounted on at least one face of the channel break, most preferably the flap is mounted on at least one flat face of the channel break such that the cylindrical end of the resilient insert is in contact with the face. The advantage is that pushing the flap into the interruption of the channel creates a pressure connection which holds the flap in the grip between the faces of the interruption of the channel.

In certain applications, it may be further advantageous for the flap to be mounted on at least one shaped end of the channel interruption so that the cylindrical end of the resilient insert is in contact with the face.

It is also very advantageous if the flap is secured in the interruption of the channel by at least one securing means, which is a buckle or a screw. The advantage is that the damper mounting is very strong and stable.

In a preferred embodiment, the channel in which the flap is housed is a main channel which comprises an inlet part of the main channel, which is connected to the connecting part of the main channel in which the flap is arranged, and the connecting part of the main channel is connected to the outlet part of the main channel. part of the main duct is connected by a return duct, to discharge compressed air with seeds and / or fertilizer at the moment of closing the flap, to a seed and / or fertilizer collecting vessel, the return duct being simultaneously connected by a bypass duct to the outlet part of the main duct to discharge pressure. air at the moment of closing the damper. Thanks to this construction, the flap formed by the closing chamber with the flexible insert can be easily removed and the flexible insert can be easily replaced.

- 2 CZ 2019 - 282 A3

The main advantage of the damper and body, according to the invention, is a very simple and inexpensive construction, which enables trouble-free operation with the possibility of simple replacement of the damper if necessary. The absence of mechanical moving parts, the large closing force, the elimination of clogging and the easy replacement of the wear part, which is a flexible insert, is particularly advantageous. Thanks to this, the damper can be mounted on each vas deferens hose and switched on with a pressure medium either individually or in groups.

Explanation of drawings

The invention will be further elucidated by means of the drawing, in which Fig. 1 shows a cross-section of a flap mounted in the ends of a channel interruption, Fig. 2 shows a cross-section of a line body with a flap open, Fig. 3 shows a cross-section of a line body with a flap which is closed, Fig. 4 shows a cross-section of a guide body with a flap to which a source of control medium is connected, Fig. 5 shows a cross-section of a guide body with a flap housed in a collecting and distribution container body, and Fig. 6 shows a perspective view of a seeding part sowing and / or fertilising machines, including the connection of its collecting and distribution vessel, by means of a line body containing a flap, to the application site.

Examples of embodiments of the invention

Example 1

The flap 5 (Fig. 1, Fig. 6) of the agricultural sowing and / or fertilizing machine is arranged as part of the seed and / or fertilizer guide to the application point 6. The flap 5 comprises a closing chamber 1, in the cavity 3 of which a hollow resilient insert is arranged. 2, which is pressure-deformable from the cavity 3 to close the seed guide passage and / or the fertilizer through its cavity 14. The closing chamber 1 is designed to be dimensionally rigid.

The closing chamber 1 is connected by a hose 21 to a source 7 of control medium, which is compressed air. In the connection of the closing chamber 1 and the source 7 of the control medium, a control means 20 is arranged, which is connected to the control means of the agricultural machine or to the control computer unit of the machine of the agricultural machine. The control means 20 is a piezoelectric valve.

Both ends 23 of the resilient insert 2 have a cylindrical shape, by which they are removably mounted on the front 8 of the closing chamber 1.

The body 4 of the seed and / or fertilizer guide (Fig. 1) to the application point 6 of the agricultural sowing and / or fertilizing machine comprises a flap 5 which is mounted in the interruption 10 of the channel 22 of the body 4 in a replaceable manner.

The flap 5 is mounted on both flat faces 9 of the interruption 10 of the channel 22 so that the cylindrical ends 23 of the resilient insert 2 are in contact with the faces 9. The cells 9 are designed to accurately receive the flap 5, more precisely to receive the outer surfaces 24 of the resilient insert 2.

The whole 9 of the interruption 10 of the channel 22 is made in the form of a flat flange. Alternatively, the face 9 of the interruption 10 of the channel 22 can be shaped in the form of a sleeve.

The resilient insert 2 is cylindrical in cross section or can alternatively be oval.

The flap 5 is secured in the interruption 10 of the channel 22 by a securing means 18, which is a tightening buckle.

The device operates in such a way that at the moment when the flap 5 is opened, the seed and / or fertilizer emerging from the distributor 27 passes through the inlet part 11 of the main channel 17. the connecting part 12 of the main

-3GB 2019 - 282 A3 of the channel 17, including the flap 5 arranged therein, and through the outlet part 13 of the main channel 17 to the hose 28 seed water.

At the moment when compressed air is supplied to the flap 5, the elastic insert 2 is deformed by pressure so as to close the passage of the seed and / or fertilizer guide through its cavity 14. After the pressure of the actuating compressed air is interrupted, the elastic insert 2 returns to its original cylindrical shape. thereby allowing the seed and / or fertilizer to pass freely through its cavity 14 into the vas deferens hose 28, and through it to the application site 6.

Example 2

The flap 5 (Fig. 2, Fig. 3, Fig. 4, Fig. 6) of the agricultural machine for sowing and / or fertilizing is arranged as part of the seed and / or fertilizer guide to the application point 6. The flap 5 comprises a closing chamber 1, in the cavity 3 of which is arranged a hollow resilient insert 2, which is pressure-deformable by pressure from the cavity 3 to close the seed guide passage and / or the fertilizer with its cavity 14. The closing chamber 1 is designed to be dimensionally rigid.

The closing chamber 1 (Fig. 4) is connected by a hose 21 to a source 7 of control medium, which is compressed air. In the connection of the closing chamber 1 and the source 7 of the control medium, a control means 20 is arranged, which is connected to the control means of the agricultural machine or to the control computer unit of the machine of the agricultural machine. The control means 20 is a piezoelectric valve.

Both ends 23 of the flexible insert 2 have a cylindrical shape, by which they are removably mounted on the front 8 of the closing chamber L.

The resilient insert 2 is cylindrical in cross section or can alternatively be oval.

The body 4 of the guide (Fig. 4, Fig. 5, Fig. 6) of seeds and / or fertilizers to the application point 6 of the agricultural sowing and / or fertilizing machine comprises a flap 5 which is mounted in the interruption 10 of the channel 22 of the body 4 removably.

The flap 5 is mounted on both faces 9 of the interruption 10 of the channel 22.

The flap 5 is mounted on both shaped faces 9 of the interruption 10 of the channel 22 so that the cylindrical ends 23 of the flexible insert 2 are in contact with the faces 9. The cells 9 are shaped to accurately receive the flap 5, more precisely to receive the outer surfaces 24 of the flexible insert 2. The cells 9 of the interruption 10 of the channel 22 are shaped in such a way that they are provided with shaped projections 26 on their surface, where they are in contact with the outer surfaces 24 of the flexible insert 2 of the flap.

The whole 9 of the interruption 10 of the channel 22 is made in the form of a flange. Alternatively, the face 9 of the interruption 10 of the channel 22 can be shaped in the form of a sleeve.

The flap 5 is secured in the interruption 10 of the channel 22 by a securing means 18, which is a tightening buckle.

The channel 22 (Fig. 2, Fig. 3, Fig. 4) is a main channel 17, which comprises an inlet part 11 of the main channel 17, followed by a connecting part 12 of the main channel 17, in which the flap 5 is arranged, and a connecting part. 12 of the main channel 17 is connected to the outlet part 13 of the main channel 17, the inlet part 11 of the main channel 17 being connected by a return channel 15, to discharge compressed air with seeds and / or fertilizer at the moment of closing the flap 5, to a seed and 19 or fertilizer collection container 19. with the return duct 15 being simultaneously connected by a bypass duct 16 to the outlet part 13 of the main duct 17 for the discharge of compressed air at the moment of closing the flap 5. The return duct 15 is connected by a bypass duct 16 at an angle greater than 90 degrees.

-4EN 2019 - 282 A3

The bodies 4 (Fig. 5) of the guide with flaps 5 are arranged on a circular distributor 27 in which the seed and / or fertilizer fed through the central line from the metering unit is distributed evenly into these flaps 5, to which the hose 28 of the vas deferens are connected.

The device operates in such a way that at the moment when the flap 5 is opened, the seed and / or fertilizer exiting the distributor 27 passes through the inlet part 11 of the main channel 17, the connecting part 12 of the main channel 17, including the flap 5 arranged therein. part 13 of the main channel 17, into the hose 28 seed water.

At the moment when compressed air is supplied to the flap 5, the elastic insert 2 is deformed by pressure so as to close the passage of the seed and / or fertilizer line through its cavity 14. After the pressure of the actuating compressed air is interrupted, the elastic insert 2 returns to its original cylindrical shape. thereby allowing the seed and / or fertilizer to pass freely through its cavity 14 into the vas deferens hose 28, and through it to the application site 6.

As soon as the flap 5 is closed, the seed and / or fertilizer emerging from the distributor 27 enters the inlet part 11 of the main channel 17, in which it branches into the return channel 15, from which the seed and / or fertilizer leaves the collecting vessel 19 of the distributor 27. wherein most of the compressed air leaves via the bypass channel 16 to the outlet part 13 of the main channel 17 and subsequently thereafter to the hose 28 of the vas deferens.

The shape of the connection of the bypass channel 16 to the return channel 15 ensures the separation of the seed and / or fertilizer stream from the compressed air, so that only compressed air itself escapes from the seed tube hose from the pneumatic sowing device, thus ensuring its full functionality even when closing the flap part 5.

Industrial applicability

The flap and the guide body according to the invention can be used on an agricultural machine for precise sowing of seeds and / or precise application of fertilizer.

Claims (13)

PATENT CLAIMS A flap, in particular a flap (5) of an agricultural machine for sowing and / or fertilizing arranged as part of a seed and / or fertilizer guide to an application point (6), characterized in that it comprises a closing chamber (1) in the cavity (3) ) a hollow resilient insert (2) is arranged, which is pressure-deformable by pressure from the cavity (3) to close the seed and / or fertilizer passage through its cavity (14), the closing chamber (1) being connected to the control medium source (7) . Flap according to Claim 1, characterized in that the control medium is compressed air. Flap according to one of the preceding claims, characterized in that at least one end (23) of the resilient insert (2) has a cylindrical shape by which it is removably mounted on the front (8) of the closing chamber (1). Flap according to one of the preceding claims, characterized in that an actuating means (20) is arranged in the connection of the closing chamber (1) and the source (7) of the control medium. Flap according to claim 4, characterized in that the control means (20) is connected to the control means of the agricultural machine or to the control computer unit of the agricultural machine. Flap according to one of Claims 4 and 5, characterized in that the actuating means (20) is a piezoelectric valve. Flap according to one of the preceding claims, characterized in that the resilient insert (2) is cylindrical or oval in cross section. Guide body, in particular a body (4) for guiding seeds and / or fertilizers to an application point (6) of an agricultural sowing and / or fertilizing machine, comprising a flap (5) according to one of the preceding claims, characterized in that the flap ( 5) is removably mounted in the interruption (10) of the channel (22) of the body (4). Guide body according to Claim 8, characterized in that the flap (5) is mounted on at least one face (9) of the interruption (10) of the channel (22). Guide body according to one of Claims 8 and 9, characterized in that the flap (5) is mounted on at least one flat face (9) of the interruption (10) of the channel (22) so that in contact with the face (9) is the cylindrical end (23) of the flexible insert (2). Guide body according to one of Claims 8 and 9, characterized in that the flap (5) is mounted on at least one shaped face (9) of the interruption (10) of the channel (22) so that in contact with the face (9) ) is the cylindrical end (23) of the flexible insert (2). Guide body according to one of Claims 8 to 11, characterized in that the flap (5) is secured in the interruption (10) of the channel (22) by at least one securing means (18). -6EN 2019 - 282 A3 Line body according to one of Claims 8 to 12, characterized in that the channel (22) is a main channel (17) which comprises an inlet part (11) of the main channel (17), to which a connecting part (12) adjoins. of the main channel (17), in which the flap (5) is arranged, and the connecting part (12) of the main channel 5 (17) is followed by an outlet part (13) of the main channel (17), the inlet part (11) of the main channel (17) ) is connected by a return channel (15), to discharge compressed air with seeds and / or fertilizer at the moment of closing the flap (5), to a seed and / or fertilizer collection container (19), the return channel (15) being connected at the same time a bypass duct (16) with an outlet part (13) of the main duct (17) for discharging compressed air at the moment of closing the flap (5).