AT16034U1 - Silo vehicle for bulk goods - Google Patents

Abstract

There is a silo vehicle for bulk material with at least one pressure vessel (1), with a at least one discharge hopper (2) of the pressure vessel (1) connected to the delivery line (4), between the and the discharge hopper (2) actuated by an actuator (11) Emptying flap (3) is provided, and with a drivable by a power take-off (6) of the silo vehicle blower (5) whose pressure side on the one hand with the pressure vessel (1) and on the other hand with a flow direction before the discharge flap (3) in the delivery line ( 4), which is connected to a control valve (13) supply air line (12) is connected. In order to ensure advantageous Austragsbedingungen is proposed that at a depending on the type of bulk material and the dimensions of the feed line (4) preset speed of the power take-off (6) for the fan (5) of the pressure in the feed line (4) by a on the one hand the Actuator (11) for the discharge flap (3) and on the other hand, the control valve (13) in the supply air line (12) controlling the control device (15) is held within a predetermined tolerance range.

Description

The invention relates to a silo vehicle for bulk material with at least one pressure vessel, with a conveyor line connected to at least one discharge hopper of the pressure vessel, between which and the discharge hopper an emptying flap operable by an actuator is provided, and with a by an auxiliary drive of the Silo vehicle drivable fan whose pressure side is connected on the one hand to the pressure vessel and on the other hand with a direction of flow in front of the discharge valve in the delivery line, provided with a control valve supply air line.

For loading of silo vehicles with bulk their pressure vessel via a blower, usually a rotary blower, subjected to negative pressure, so that the bulk material is sucked by means of suction lances connected to the pressure vessel in the pressure vessel. To discharge the bulk material, the pressure vessels are connected to the pressure side of the blower so that the pressure built up in the pressure vessel by the blower and held during discharge pressure after opening an emptying flap in the bottom of a discharge hopper a conveying air flow for the bulk material due to a connected to the discharge hopper delivery line , For a given admission pressure of the pressure vessel, this conveying air flow depends on the one hand on the bulk density of the bulk material and on the other hand on the flow resistance of the laden conveying air flow in the conveying line. At high bulk densities, as they are in fine-grained bulk materials, additional air is required for a sufficient flow of air, which can be provided by the fan and upstream of the discharge hopper of the delivery line is supplied. Bulk goods with a low bulk density, for example pellets, require no or only a comparatively small amount of supply air. If the supply air quantity is too low in relation to the respective type of bulk material, there is a risk of clogging of the delivery line by the bulk material. Too large a quantity of conveying air adversely affects the delivery rate. In addition, care must also be taken to ensure that the conveying speed increases the abrasion of the bulk material during its conveyance through the delivery line. The operation of the silo vehicle for discharging the bulk material therefore requires considerable experience with regard to setting and maintaining the flow conditions dependent on the respective bulk material within the delivery line connected to the discharge hopper.

The invention is therefore based on the object to equip a silo vehicle so that a metered, gentle discharge of the bulk material is ensured while maintaining favorable flow conditions.

Starting from a silo vehicle of the type described, the invention solves the problem set by the fact that at a preset depending on the type of bulk material and the dimensions of the feed line speed of the auxiliary drive for the fan, the pressure in the delivery line by a on the one hand Actuator for the discharge flap and on the other hand, the control valve in the supply air control device is kept within a predetermined tolerance range.

Since the pressure in the delivery line at a given admission pressure of the pressure vessel on the one hand depends on the pressure drop within the bulk material in the pressure vessel and thus of the bulk density and on the other hand by the flow conditions within the delivery line and thus among other things also from the supply air, the pressure in the Feed line advantageously be used as a controlled variable of a control loop, for whose manipulated variables offer the discharge flap and the control valve in the supply air line. If the pressure within the delivery line rises above a tolerance limit, the bulk material charge applied to the delivery line can be reduced by a closing movement of the discharge flap and thus the conveying air content of the conveying air bulk flow can be increased with the effect that the pressure in the delivery line falls below the upper tolerance limit.

However, if the delivery line pressure drops below a lower tolerance limit, the delivery rate related to the delivery air quantity can be increased either by an increase

Increased bulk solids rate, but this is not possible when the discharge flap is open or the supply rate is throttled via the control valve in the supply air line. By means of the control valve in the supply air line, in particular, the flow resistance of the delivery line which is dependent on the geometric dimensions, namely on the diameter and the length of the delivery line, can also be taken into account in a simple manner. With the provision of a control device on the one hand controls the actuator for the discharge and on the other hand, the control valve in the supply air so that the pressure within the delivery line can be kept within a predetermined tolerance, thus independent of the skill of an operator favorable discharge conditions for different types of Bulk materials and different types of delivery lines are respected.

The required for a particular bulk material Beaufschlagungsdruck for the pressure vessel and the supply air required for this purpose are empirical values, which - once determined - each can be specified. For this purpose, the control device can control the auxiliary drive for the blower with a rotational speed setpoint selected programmatically as a function of the type of bulk material and the dimensions of the delivery line from stored presettings. With the additional specification of the diameter and the length of the delivery line, its flow resistance can be taken into account when selecting the speed setpoint for the fan drive.

With the flow velocity in the delivery line, the mechanical load of the conveyed bulk material increases. In order to avoid mechanical overloads, the control valve in the supply air line can be controlled by the control device as a function of exceeding a predetermined limit value for the flow velocity in the supply air line. In addition, the bulk material is exposed to thermal stresses due to its promotion. To avoid hazards of the bulk material due to thermal stresses, the actuator for the discharge flap and / or the control valve in the supply air line can be controlled by the control device in dependence on the temperature in the delivery line. In both cases, the bulk material content of the conveying air-bulk material flow and thus the thermal load of the bulk material is reduced during its delivery through the delivery line.

In the drawing, the subject invention is illustrated, for example. A silo vehicle according to the invention is shown in a schematic block diagram.

The silo vehicle according to the invention comprises, according to the illustrated embodiment, a pressure vessel 1 constructed on a chassis, not shown for reasons of clarity, which is provided with two discharge hoppers 2, which are closed at the bottom by an emptying flap 3 and connected to a common delivery line 4. If necessary, the pressure vessel 1 z. B. for feed preparation with a mixing device, preferably with a mixer screw, be equipped. The bulk material discharge remains so untouched by the respective equipment of the pressure vessel 1.

For pressurizing the pressure vessel 1 is a fan 5, preferably a rotary blower, which is driven by a power take-off 6 of the silo vehicle. The blower 5 can optionally be connected by a suction line 7 or by a pressure line 8 to the pressure vessel 1. If the pressure vessel 1 is pressurized by the suction line 7 opening into the pressure vessel 1 via a filter 9, the pressure vessel 1 can be loaded by means of a suction lance 10, through which bulk material is sucked into the pressure vessel due to the negative pressure prevailing in the pressure vessel 1.

For discharging bulk material, the pressure vessel 1 is pressurized by being connected via the pressure line 8 to the pressure side of the blower. The building up in the pressure vessel 1 pressure causes after opening at least one of the emptying flaps 3 by the associated actuator 11 that bulk material is discharged through the discharge hopper 2 with the opened discharge flap 3 in the delivery line 4 and conveyed with a conveying air flow through the delivery line 4. In order to provide sufficient conveying air for the bulk material delivery through the delivery line 4 depending on the type of bulk material, the pressure side of the fan 5 is connected to a supply air line 12 which is provided with a control valve 13 and upstream of the emptying flaps 11 in the Feed line 4 opens. In order to avoid bridging in the bulk material within the discharge funnel 2, additional compressed air can be injected into the discharge funnel 2, via lines 14.

In order to ensure advantageous Austragsbedingungen taking into account the decisive for the discharge parameters, a control device 15 is provided which controls the one hand, the actuators 11 for the discharge flaps 3 and on the other hand, the control valve 13, in dependence on the pressure in the delivery line. 4 For this purpose, the control device 15 is connected to a transmitter 16 for the pressure in the delivery line 4. If the pressure during the discharge of bulk material exceeds an upper tolerance limit, the bulk material content of the conveying air bulk material flow must be reduced, which is generally ensured by a lowering of the supplied bulk material rate, but can also be done by raising the supplied supply rate. The control device 15 thus controls the actuator 11 of the open discharge flap 3 in the closing direction until the pressure in the delivery line 4 drops below the predetermined, upper tolerance value.

Falls the pressure in the delivery line 4 with open discharge flap 3 below a lower tolerance value, so to increase the bulk fraction of the conveying air-bulk material flow to reduce the Zuluftrate what a corresponding control of the control valve 13 in the supply air line 12 through the control device 15 for Episode has. By a corresponding control of the actuating drive 11 for the discharge flap 3 and the control valve 13 in the supply air line 12 thus largely uniform discharge conditions can be ensured in a comparatively simple manner, which shows that the pressure in the delivery line 4 kept constant in a predetermined tolerance range becomes.

In order to be able to specify a loading pressure for the pressure vessel which is matched to the respective bulk material and which takes into account the flow resistance in the conveying line 4, corresponding empirical values are stored in the control device 15 which can preferably be corrected by self-learning. If a certain type of bulk material is selected via an input unit 17 and if the dimensions of the delivery line 4 are also predetermined, then the controller 15 sets a speed setpoint for the auxiliary drive 6, so that the blower 5 pressurizes the pressure vessel 1 with a suitable pressure and a corresponding pressure Zuluftrate on the control valve 13 is set in the supply air line 12. After a specification of the amount of bulk material to be discharged via the input 17 then the discharge can be started by the discharge valve is opened via the control device 15 after a corresponding pressure build-up in the pressure vessel 1. By means of a weighing device 19, on which the pressure vessel 1 is supported, the respective extracted bulk material quantity can be detected and communicated to the control device 15, which upon reaching the inputted discharge rate, the discharge process completed.

In order to optimize the bulk material discharge, also the conveying speed in the delivery line 4 and the Guttemperatur can be monitored. For this purpose, the control device 15 is connected, on the one hand, to a sensor 20 for the speed of the supply air and, on the other hand, to a temperature sensor 21 connected to the delivery line 4, so that it is possible to intervene accordingly when exceeding predetermined limit values in the discharge process.

Claims (4)

claims 1. Silo vehicle for bulk material with at least one pressure vessel (1), with a at least one discharge hopper (2) of the pressure vessel (1) connected to the delivery line (4), between the and the discharge hopper (2) by an actuating drive (11) operable discharge flap (3) is provided, and with a by a power take-off (6) of the silo vehicle driven fan (5) whose pressure side on the one hand to the pressure vessel (1) and on the other hand with a flow direction before the discharge flap (3) in the delivery line (4) opening, with a control valve (13) provided supply air line (12) is connected, characterized in that at a depending on the type of bulk material and the dimensions of the feed line (4) preset speed of the auxiliary drive (6) for the fan (5) the pressure in the delivery line (4) by a one hand the actuator (11) for the discharge flap (3) and on the other hand, the control valve (13) in the supply air line (12) controlling control device (15) is kept within a predetermined tolerance range. 2. Silo vehicle according to claim 1, characterized in that the control device (15) the auxiliary drive (6) for the fan (5) with a programmatically depending on the nature of the bulk material and the dimensions of the feed line (4) selected from stored specifications speed setpoint controls. 3. Silo vehicle according to claim 1 or 2, characterized in that the control valve (13) in the supply air line (12) by the control device (15) in response to exceeding a predetermined limit value for the flow velocity in the supply air line (12) is controllable. 4. Silo vehicle according to one of claims 1 to 3, characterized in that the adjusting drive (11) for the discharge flap (3) and / or the control valve (13) in the supply air line (12) by the control device (15) in dependence on the Temperature in the delivery line (4) can be controlled. For this 1 sheet drawings