EP3038447A1 - Pneumatic spreading machine - Google Patents

Abstract

The invention relates to a spreading machine for spreading material to be scattered such as fertiliser or seed, comprising a container (1) for accommodating the material to be scattered, a metering element (13) arranged downstream of the container, and a conveying line (6) for the metered material to be scattered, which line is arranged downstream of the metering element and opens into a spreader head (7), and to which line an air stream can be applied. Said spreader head has a plurality of connections, a housing (18) being connected to at least one or in particular a plurality of the connections, which housing accommodates a shut-off element (22) for interrupting, as required, the stream of material to be scattered, to which shut-off element a spreader line (8) can be connected. The housing according to the invention also accommodates a sensor (30) designed to detect the stream of material to be scattered. The sensor is arranged on the periphery of the duct (20) for the material to be scattered, said duct passing through the housing and being connected at one end to the spreader head upstream of the sensor and at the other end to the spreader line downstream of the sensor.

Description

 Pneumatic distributor

The invention relates to a pneumatic distribution machine for distributing material to be spread, with a container for receiving the material to be spread, a downstream of the container metering and downstream of the metering, acted upon by an air flow conveyor line for the metered spreading material, which opens into a distributor head, wherein the distributor head a A plurality of, in particular distributed around its circumference arranged, terminals and at least one of the terminals is connected to a housing which receives a shut-off device for interrupting the need of interrupting the stream and to which a distribution line can be connected.

Pneumatic distributing machines are widely used in agriculture for spreading seed or fertilizer. In this case, the held in a container stockpiled grit is metered by means of a usually arranged below an outlet opening of the container Do ^¬ sierorgan and the metered mass flow of grit is passed to a downstream of the metering, acted upon by a blower with compressed air delivery line, which in the compressed air stream dispersed, metered grit stream gives up a distributor head. The distributor head comprises a plurality of outlets, which are usually distributed around its circumference and to each of which a distribution line connects, which serves to supply the grit stream in one of the number of Ver ^¬ divider lines corresponding partial streams per a distributor, which with different side spacing are arranged by the distributor. Han For example, if the distribution machine is a fertilizer spreader, then the distribution devices can be formed, for example, by baffle plates located at the end of the distribution lines. For example, if the distributor is a seed drill, then the

Distributors e.g. Coulters include to introduce the seed into the soil. Such distribution machines are known inter alia from DE 44 34 963 AI or DE 197 47 029 AI.

DE 10 2010 053 883 AI describes a pneumatic distributor of the type mentioned, in which at the terminals of the distributor head housing with pivotable butterfly valves are set to selectively interrupt the (part) Streugutström the adjoining the housing, individual distribution lines and thereby In particular, to ensure various desired working widths or to make it possible to close within the desired working width individual distribution lines, for example, to save the tramlines to be created in the field, so there is not unnecessarily spreading material is applied. The butterfly valves can be operated manually or by motor. In practice, it has been shown that individual butterfly valves can jam during operation or that blockages can occur, in particular in the distributor lines. This is especially true when the distribution organs located at their free ends are added with clods or the like. There is therefore a need to identify such malfunctions early on. DE 10 2008 016 107 Al is shown in a further pneumatic distributor, on whose Verteilerköpf a plurality of flexible distribution lines directly attached Schlos ^¬ sen. In order to ensure a uniform distribution of the grit stream from the distributor head in all distribution lines, the distribution lines each carry an externally applied to the same device for changing the line cross-section in the form of a motor actu ^¬ th clamping device, which by means of a clamping pin from the outside on the presses respective flexible distribution line and thereby able to reduce their cross-section, provided that it is traversed by a high grit flow. The grit flow is detected by means of a sensor. A disadvantage on the one hand, that the device for Verän- alteration of the line cross-section can not completely close the respective manifold ^¬ pipe so that it is not possible to switch off individual distribution lines. On the other hand, the clamping devices acting on the flexible distributor lines cause them to wear increasingly, the distributor lines representing a risk of clogging in the region of the clamping devices, in particular with progressive wear. In addition, the arrangement of the clamping device on the flexible distribution line in terms of handling technology cumbersome and proves in particular the electrical or electronic contacting on the one hand the clamping devices, on the other hand, the sensors as a turn ^¬ dig, as they in the form of more or less exposed Ka ^¬ individually must be connected to a supply device.

Finally, DE 10 2012 101 531 A1 describes a farmer-trained in particular in the form of a drill. economic distribution machine with a distributor head, at the terminals housing are fixed, to which in turn the distribution lines are connected. In the housings motor-driven pivoting flaps are on the one hand housed, which are intended for closing the tramlines associated, adjacent to the respective housing Ver ^¬ divergent pipes. In addition, each housed in the housings a reed sensor, which serves to detect the position of the respective pivoting flap to control in this way, whether the respective setting ^¬ ment of the pivoting flaps (open or closed) with the desired setting of the tramlines (into which no grit applied and the flap thus ver ^¬ be joined soll) corresponds. It proves disadvantageous, in particular, that such a reed sensor can react exclusively to ferromagnetic materials and consequently only to the position of the flap (open or closed), so that malfunctions due to blockages of individual or multiple distribution lines can not be detected.

The invention has the object of providing a pneumatic distribution machine of the type mentioned in a simple and cost-effective manner to the effect that at least as far as possible avoid the above

Disadvantages of malfunction of the shut-off devices and in particular blockages of the distribution lines can be detected early. According to the invention, this object is achieved in a distribution machine of the type mentioned above in that the housing further receives at least one formed for detecting the spreading material flow sensor, wherein the sensor on Circumference of a housing passing through the grit channel is arranged, which is connected at its one end upstream of the sensor to the distributor head and at its other end downstream of the sensor to the distribution line.

The present invention, on the Verteilerköpf attachable Ge ^¬ housing has first a from external influences ideal protected and easily accessible and optionally gungs- to cleaning and / or maintenance ticks easily removable or mountable accommodation both of the formed for detecting the grit flow sensor and the closure member in that, for example, only the distributor line is released from the grit channel of the housing, so that the grit channel provided with the sensor and the obturator is open from the outside. Due to the arrangement of the sensor on the grit channel of the housing arranged directly on the distributor head, the sensor is able to provide for an immediate recognition of any obstruction of the associated distributor line. As explained in more detail below, other advantages of the invention Starting ^¬ staltung lie in a simple electrical / electronic contacting of the sensor from the Verteilerköpf forth, with the possibility to accommodate further electrical and / or mechanical components within the enclosure and also together Contact with the sensor electrically / electro ^¬ nically. The sensor according to the invention, designed for detecting the grit stream into ^¬ special also provides (for example, when the sensor detects despite opened during operation of the closure member kei ^¬ NEN grit current for an immediate detection of any malfunction of the closure member and / or the supplied ^¬ impaired distributor line, which an indication of one Blockage of the distribution line there, or for example if the closure member should be closed and the sensor nevertheless detects a grit stream, which gives an indication of jamming of the closure member). In addition, as will be explained in more detail below, in particular, it is possible for the closure member of a respective housing to be in operation during operation - ie during spreading or sowing work when the metering member is opened and a particle flow is thus supplied to the distributor head Detection of an interrupted grit stream by means of the sensor to close immediately by means of the closure member without the associated distribution line is further supplied grit and the latter accumulates there.

As already indicated, it is understood that not only one, but preferably several, in particular all, connections of the distributor head may each have a housing with a closure member and at least one sensor of the aforementioned type, to which, in turn, in each case one distributor line is connected. In this connection, it is of course also possible to use only a few, e.g. provided on the occasion of sprinkling only a portion of the maximum working width required connections with such a housing, while the unneeded connections are closed.

In an advantageous manner, it can be provided that the housing is detachably, in particular by means of screw and / or latching connections, fixed to the respective connection of the distributor head, so that a simple and quick accessibility of the housing in case of need from the distributor head is ensured and a modular design with a variety - in particular identical - cases results. Of course, any other releasable connections, such as quick fasteners, for example in the form of buckles or the like, come into consideration instead of screw and / or snap connections. In this case, the connections of the distributor head can in particular have connecting pieces for the respective housings, or the distributor head has two ring elements arranged approximately parallel to which and between which the housings can each be fixed substantially gas-tight, while the sealing of housings adjacent in the circumferential direction done by direct contact of suitable sealing devices of the housing with each other. In this context, reference is made in particular to DE 10 2010 053 883 AI.

The obturator is suitably arranged on the distributor head facing the end of the grit channel to prevent any stagnation of grit from the distributor head forth to the obturator when the latter has been closed.

In addition, the sensor is preferably downstream of the obturator, in particular under a certain - viewed in the axial direction of ^¬ Streugutkanals - distance from the obturator, arranged on the circumference of the housing passing through the grit channel, so that the grit passage of the housing passing Streugutström detected downstream of the obturator And it is in this way easily and very quickly possible, one - it was due to a malfunction, whether due to jamming, it was due to agglomeration of grit particles, etc. - accidentally not (completely) transferred to the closed position To immediately identify the obturator (namely, if in a supposedly closed obturator nevertheless a Streugutström is detected by sensors). The obturator can for example have a - manually or motor-driven - actuatable flap, which can either be moved back and forth between an open position and a closed position or, if desired, in addition also in one or more positions can be converted, in which they the grit channel only partially closes the housing in order to compensate if necessary in the case of a sensory detected uneven spreading material distribution in the grit channels of the housing connected to the distributor head compensation.

In a preferred embodiment, the obturator on an electric motor drive, which acts on the actuator, wherein the housing further comprises at least the electrical see and electronic connections of the drive. The electromotive drive itself, for example, as known as such from the above-cited DE 10 2010 053 883 AI, be releasably placed on an electrically and electronically contacted mounting base of the housing, or it may also be accommodated in the housing in particular also. The same applies, of course, for acting on the obturator, electric motor actuated actuator. In an advantageous embodiment, it may further be provided that the grit channel has an at least partially rectangular cross section, wherein the sensor is arranged on the rectangular cross section and essentially borrowed along at least one side of the rectangle. In this way, it is possible that the sensor is able to detect a possible grit flow over the entire cross section of the grit channel, so that, for example, small leaks of the closure member, which can lead to only local penetration of a few grit particles, can be detected.

In principle, the sensor can be of any known construction, which makes it possible to detect particles passing through it, preferably by an optical sensor, in particular in the form of a light barrier, but of course also by any other, suitable for detecting the spreading material flow and in particular touch - Freely measuring sensors may be formed, with only exemplary ultrasonic, infrared, ultraviolet, radar, microwave sensors and the like may be mentioned.

In the case of such a rectangular cross-sectional section of the grit channel provided with the sensor in the housing, said rectangular cross-section section of the grit channel preferably transitions at its end remote from the distributor head into an outlet section with a substantially round cross-section, at which the usually tubular distributor line in FIG simple manner can be connected. The outlet section may either be made integral with the housing or may also be secured to its grit channel at its end remote from the distributor head, such as e.g. flanged, his.

As already indicated, accommodating both the closure element and the sensor in the common housing which can be connected to the distributor head offers the advantage of ner simple electrical and electronic contacting of all, housed in the housing components, wherein the housing also can in particular also record at least one control board, which can serve to control the closing organ and for passing on the sensory data recorded to an electronic control unit.

With a view to easy and effortless contacting, the housings can be contacted preferably electrically and electronically in the manner of a series connection, whereby e.g. a single wire harness is guided from the distributor head forth in a first housing and from there in turn is guided in the following housing. Corresponding field buses, such as e.g. CAN bus or ISOBUS systems are known as such from the prior art.

The connections of the distributor head are expediently distributed around the circumference of the distributor head, the distributor head in particular having a removable cover, which is preferably arranged at the side of the distributor head opposite the discharge point of the delivery line into the distributor head. In this way, in the grit channels of all housing, which are connected to the terminals of the distributor head, located sensors and the closure members in a simple manner accessible by only the cover of the distributor head must be solved, whereupon it is possible, for example, soiled or clogged grit channels to clean with the sensors arranged therein or also to free any obstructing blocked obstruction from adhering grit. According to a further development of the invention, moreover, provision may be made for the terminals of the distributor head to be assigned a cleaning device in order to clean the grit channel of the housing fixed to the connections. Such a cleaning device may be formed, for example, in the manner of a cylindrical, insertable into the grit channel of the housing brush and assigned to each housing, or the distributor head has only one or more such brushes, which along its circumference, such as by means of a guide, if necessary to can be moved to the housing to be cleaned / can.

As already mentioned, the sensors and the motor drives of the shut-off devices of all housings preferably communicate with a common electronic control device in order to be able to operate the shutters individually, jointly or in groups, in response to an input command and / or automatically.

The electronic control device preferably comprises a display device which displays the position of the shut-off elements and / or the sensory grit flow. In addition, the electronic control device preferably comprises an input device for actuating the shut-off elements individually, jointly or in groups. The display device and the input device are expediently implemented in an operator terminal, which can be connected, for example, via cable or wirelessly to the distributor and, in particular, can be located in the driver's cab of a tractor such as a tractor. As already indicated, it is furthermore of particular advantage if the control device moves a respective shut-off device into its closed position, provided that the sensor is open during operation - ie when the metering device is open during spreading or sowing, and for each distributor line, of which upstream obturator is open, a partial flow should be supplied to the grit - with open shut-off no or a reduced or only small Streugutström detected to the stray good current in the associated housing in view of a suspected clogging of the grit channel or this downstream distribution line immediately to close. Further features and advantages of the invention will become apparent from the following description of an embodiment with reference to the drawings. Showing:

Fig. 1 is a schematic view of an embodiment of a pneumatic distributor of the latter

Rear view;

Fig. 2 is a schematic perspective view of the

 Distributor head of the distributor of Figure 1 including the pneumatic conveying components.

Fig. 3 is a perspective detail view of the manifold ^¬ head of Figure 1 with a plurality of devices connected to the outlets housings.

4 shows a perspective detailed view of an embodiment of one of the housings according to FIG. 3; Fig. 5 is a sectional view of the housing of FIG. 4; and FIG. 6 shows a plan view of the housing cut open corresponding to FIG. 5.

In Fig. 1, an embodiment of a pneumatic distributor is shown schematically, which can be releasably fixed, for example, on a conventional Dreipunkgestänge a tractor. It comprises a container for receiving spreading material, such as e.g. Seed or fertilizer, with a cover 2, which are supported on supports 3 of a frame. At the latter, a blower 4 is further set for generating an air flow. Below an outlet of the approximately funnel-shaped downwardly tapering container 1 is a in Fig. 2 closer to the transfer device 5, which serves to transfer the material to be spread to a delivery line 6, which is acted upon by the fan 4 with an air flow to the

To promote spreading material upwards in a distributor head 7. The distributor head 7 comprises a plurality of terminals distributed around its circumference, in the present case approximately radially outwardly extending terminals, to each of which a housing 18 (cf., Fig. 2 ff) is connected, each of which is explained in more detail below Shut-off device for on-demand interruption of the fluidized grit stream and each equipped with a sensor for detecting the partial flow of grit. As can be seen again from FIG. 1, a respective distribution line 8 designed in the manner of a hose, for example, terminates at the respective housing 18 at its side facing away from the distributor head 7 (broken off in FIG. 1 for reasons of clarity). represents), which are guided substantially down and back and are provided at their free, the distributor head 7 remote from the end with distribution organs. In the case of the sowing machine shown by way of example in FIG. 1, these distributing members are seed drums not recognizable in detail, with feeders 9 arranged downstream thereof, so-called harrows. Incidentally, the frame of the distributor can be supported by support wheels 10 on the floor 11, in particular by being lifted by them.

Fig. 2 shows the pneumatic conveying components of the distributor of FIG. 1, which for the transfer of the

Scrap material from the transfer device 5 in the distributor head 7 by means of the delivery line 6 serve. The latter has at its end facing away from the distributor head 7, a connecting piece 12 for fluidic contacting of the blower 4 (Fig. 1), downstream of the connecting piece 12 of the outlet of a metering 13 opens via a provided with an injector transfer chamber 14 into the delivery line 6. From there, the eindisper- alloyed into the air stream spreading material first passes through a substantially horizontal portion of the conveying line 6 in a riser portion thereof which opens from below into the center of the distributor ^¬ head 7, around its circumference, the radial connections for the housing 18 are arranged.

FIG. 3 shows a detailed view of the distributor head 7 with the housings 18 detachably secured thereto. As can be seen from this, the distributor head 7 comprises, at its top side opposite the riser section of the conveyor line (see FIG. 2), a detachable lid 16 which is detachably attached to the distributor head 7 and is fastened to the distributor head 7, for example. makes divider head 7 including the delivery line 6 and in particular the housing 18 fixed to the terminals accessible. An exemplary embodiment of the housing 18, including the shut-off devices and sensors housed together herein, can be seen in FIGS. 4 to 6. As can be seen, the housing 18 has a grit channel 20, which at its end facing the distributor head 7 can be detachably fastened to the connections of the distributor head 7 by means of suitable snap-in connections 21, such as tabs. Directly on the input side, the distributor head 7 facing the end of the grit channel 20 is the closure member 22, which is formed in the present case of a flap 23, which is about a perpendicular to the extension direction of the grit channel 20 arranged axis 24 at least between a closed position (not shown ) and an opening position (FIGS. 5 and 6) can be pivoted back and forth. For this purpose, for example, serves to a terminal lever 25 of the flap 23 attacking, linear reciprocating actuator 26, which is actuated via a gear 27 by an electric drive motor 28. The actuator 26, the gear 27 and the drive motor 28 are likewise accommodated in a section 29 of the housing 18 which is separate from the grit channel 20.

The grit channel 20 has at its end facing the distributor head 7 an approximately rectangular inner cross-section within which the flap 23 is pivotally mounted and the periphery of the same - downstream of the flap 23 - a sensor 30 is arranged, which for detecting the grit channel 20 passing Scattering stream serves and, for example, as an optical sensor, such as in the form of a Photocell, can be formed. In this case, the sensor 30 extends substantially along at least one entire rectangular side of the inner cross section of the grit channel 20, so that the entire cross section of the grit channel 20 can be detected by sensors. In the case of a light barrier, therefore, on the one hand the light emitters, on the other hand the light receivers are arranged on opposite sides of the cross section over their entire length. The sensor 30 is in this case received in a circumferential extension 31 of the grit channel 20 of the housing 18.

At its end facing the distributor line 8 (see FIG. 1), the rectangular cross-section of the grit channel 20 merges into an outlet section 32 having an approximately circular cross-section to form a connecting piece for the distribution lines 8 usually formed by a flexible round tube. The round outlet section 32 may be made integral with the housing 18 or, as is the case with the illustrated embodiment, may be fixed as a separate part to the grit channel 20, e.g. latched to it, his.

In the housing 18 may further, for example, in its the electromotive drive 28 of the flap 23 receiving portion 29, a control board (not shown) be accommodated, which for controlling the flap 23 and for passing the sensory data recorded to a central electronic control unit (not shown), in order to automatically actuate the flaps 23 individually, jointly or in groups as needed for a corresponding input command and / or as a function of the sensed grit flow. The electronic control device can in this case also, on the one hand, on the one hand, Pointing device (also not shown), which indicates the position of the shut-off devices and / or the sensory grit flow detected, on the other hand, an input device (also not shown) include in order to enter the corresponding control commands for opening and closing the flaps 23 can , The control device can in particular be so program-technically set that it automatically puts the flap 23 of a respective housing 18 in its closed position, when the sensor 30 during the scattering or Säbetriebs with open flap 23 no or too low a grit stream detected, so that the Streugutström in the associated housing 18 in view of a suspected clogging of the grit channel 20 or the downstream of this distribution line 8 (see. Fig. 1) to close.

The electrical and electronic contacting of the components accommodated in the housings 18 can be carried out in particular in the manner of a series connection, e.g. a wiring harness (not shown) from the distributor head 7 forth in a first housing 18 and guided from there in turn into the following housing 18. The portion 29 of the housing 18 is provided for this purpose with holes 33 which serve for passing electrical power and electronic cables, such as CAN bus lines.

Furthermore, a cleaning device (not shown) may be assigned to the connections of the distributor head 7 in order to clean the grit channel 20 of a respective housing 18 fastened to its connections, provided that the grit channel 20 and / or the distributor line 8 adjoining thereto block the flap 23 jammed or the sensor 30 should be functionally impaired due to contamination or damage.

Claims

 claims

Pneumatic distribution machine for distributing spreading material, comprising a container (1) for receiving the material to be spread, a metering element arranged downstream of the container (1)

(13) and a the metering member (13) downstream, be acted upon by an air flow conveying line (6) for the metered spreading material, which in a Verteilerköpf

(7) opens, wherein the distributor head (7) has a plurality of, in particular distributed around its circumference, arranged connections and at least one of the terminals, a housing (18) is connected, which receives a shut-off device (22) for interrupting the interruption stream as required and to which a distribution line (8) can be connected, characterized in that the housing (18) further comprises at least one sensor designed to detect the spreading material flow

(30), wherein the sensor (30) is arranged on the periphery of a grit channel (20) passing through the housing (18), which at its one end upstream of the sensor (30) to the distributor head (7) and downstream at its other end of the sensor (30) is connected to the distribution line (8).

Pneumatic distributor according to claim 1, characterized in that in each case a housing (18) with a shut-off element (22) and with at least one sensor (30) is connected to several, in particular to all, terminals of the distributor head (7).

Distributor according to claim 1 or 2, characterized in that the housing (18) releasably, in particular by means of screw and / or snap-in connections (21), is fixed to the connection of the distributor head (7).

Distributor according to one of claims 1 to 3, characterized in that the obturator (22) at the distributor head (7) facing the end of the grit channel (20) is arranged.

Distributor according to one of claims 1 to 4, characterized in that the sensor (30) downstream of the obturator (22), in particular at a distance from the same, on the circumference of the housing (18) passing through the grit channel (20) is arranged.

Distributor according to one of claims 1 to 5, characterized in that the obturator (22) has an actuator operable flap (23).

Distributor according to one of claims 1 to 6, characterized in that the obturator (22) has an electric motor drive (28) and the housing (18) further comprises at least the electrical and electronic connections of the drive (28).

Distributor according to claim 7, characterized in that the electromotive drive (28) in the Ge ^¬ housing (18) is housed.

Distributor according to one of claims 1 to 8, characterized in that the grit channel (20) has an at least partially rectangular cross section, wherein the sensor (30) is arranged on the rectangular cross section and substantially along extends at least one side of the rectangle.

Distributor according to one of claims 1 to 9, characterized in that the sensor (30) is an optical sensor, in particular in the form of a light barrier.

Distributor according to claim 9 or 10, characterized in that the rectangular cross-section portion of the grit channel (20) at its end remote from the distributor head (7) merges into an outlet section (32) with a substantially circular cross-section, to which the distributor line (8) can be connected ,

12. Distributor according to one of claims 1 to 11, character- ized in that the housing (18) further receives at least one control board.

Distributor according to one of claims 1 to 12, characterized in that the housings (18) are electrically and electronically clocked in the manner of a series connection.

14. Distributor according to one of claims 1 to 13, characterized in that the connections of the distributor head (7) are distributed around the circumference of the distributor head (7), the distributor head (7) having a removable cover (16), which is arranged, in particular, at the side of the distributor head (7) opposite the discharge point of the delivery line (6) into the distributor head (7).

Distributor according to one of claims 1 to 14, characterized in that the terminals of the distributor The cleaning head (7) is associated with a cleaning device in order to clean the grit channel (20) of the housing (18) fixed to the terminals.

Distributor according to one of claims 1 to 15, characterized in that the sensors (30) and the motor drives (28) of the shut-off elements (22) of all housings (18) are connected to a common electronic control device.

Distributor according to claim 16, characterized in that the electronic control device comprises a display device which displays the position of the shut-off elements (22) and / or the sensory grit flow detected.

Distributor according to claim 16 or 17, characterized in that the electronic control device comprises an input device for actuating the shut-off elements (22) individually, jointly or in groups

Distributor according to one of Claims 16 to 18, characterized in that the display device and the input device are implemented in an operator terminal.

Distributor according to one of claims 16 to 19, characterized in that the control device a respective obturator (22) is placed in its closed position, provided that the sensor (30) during operation with the shut-off device (22) detects no or only a reduced Streugutström.