DE2136328B2 - Pneumatically feeding multiple extruders with granulate - system meters supply to hoppers by cutting off air when filled - Google Patents

Abstract

Powders are transported by air current from containers to a number of delivery points (e.g. in charging a number of extruders with granulate), each of which has a precipitator and compressed air chamber and material container; the delivery points are fed independently and are connected in series to a fan, and the air current through each is regulated according to the level in it. The regulators for all the precipitators are connected to the fan regulator in series, each material chamber has an outlet baffle which opens under a set weight and closes automatically with a time lag after emptying; the regulator system has a switch operated when the baffle opens plus a valve which is then closed in the air pipeline from the delivery point. Simple system and operation.

Description

The invention relates to a device for loading several take-off points from storage containers pneumatically conveyed bulk material, e.g. B. for loading extruders with plastic granulate, with each Upstream take-off point separators each having a clean air chamber and a product chamber, the are connected separately on the delivery side to the storage container or containers, and with each separator assigned, interrupting the flow rate flowing through it depending on the degree of filling Steering.

Pneumatic conveying is used for bulk goods for many reasons that cannot be discussed further here preferably applied. Here, among other things, the problem often arises that in one or more storage containers, z. B. silos or the like. To transport contained goods in predetermined quantities to certain delivery points. In the plastics processing industry, for example, a variety of machines, e.g. B. Extruders that can be loaded with plastic granulate of various consistencies and colors. Unless it is a If uniform granules are involved, it is in a single container, whereas different granules are in several Containers stored. Smaller transportable storage containers are also possible.

In the case of the pneumatic loading of such processing machines, there is currently one for each machine Separate conveyor system is provided, which consists of a 5 arranged above the hopper of the machine Separator, a suction pipe that transports the material from the storage container into the separator - in the case the suction process - and a fan connected to the separator via a clean air line

ίο exists The equipment effort is therefore at several processing machines correspondingly large and is thereby further increased that each system must be controlled and monitored separately.

In a known system of this structure (US-PS 34 31 026) the degree of filling of the separator is means a level indicator monitors the one hand on a valve in the clean air line acts on the other hand a complicated sequence control is linked, which ensures that each separator in several Is filled in the following steps until a separator has reached its filling level. Then this separator becomes separated from the conveyance while all others continue to be charged.

In another type of systems (US-PS 35 44 167) it is known to the hopper Processing machines provide photocells to monitor the fill level when the Raise the filling height of a suction pipe that is receiving the product, so that the product flow is interrupted.

The invention is based on the object of the device of the structure described above (US-PS 34 31 026) to simplify in terms of control technology and thus also functionally to enhance.

This object is achieved according to the invention in that the controls of all the separators are connected one behind the other to the fan control and that the product chamber is provided with a discharge flap that opens below a given weight and automatically closes after it has been completely emptied, and that the control consists of a discharge flap that responds when the flap is opened There is a switch and a valve brought into the closed position by this in the clean air line leaving the separator. The time delay with which the flap closes under the action of the counterweight is measured so that after a new filling and emptying the take-off point can resume a separator filling.
The serial connection of the control of all separators to the fan control ensures that the first point in the order of the acceptance points, whose separator is empty, is connected to the conveyor system first and the other empty acceptance points are only switched on after the first point has been filled in accordance with their sequence . On the other hand, the fan is automatically switched off in the event that all delivery points are sufficiently loaded.

The switches of all separators are connected in series to the fan control. They are expedient designed as magnetic switches that are particularly sensitive to dust. Every switch is with Advantage assigned to a bypass switch, so that

For example, if a processing machine fails at one of the acceptance points, it will be removed from the system can be removed without interrupting the supply of the other tapping points got to.

A filling funnel, for example opening into the processing machine, is usually at the take-off point provided, into which the material is emptied from the separator. According to the invention is the hopper so dimensioned and arranged with reference to the separator that the discharge flap pivoting into it is kept open by the material emptied into the funnel, which forms a cone of material there. the The flap can therefore only close - with the aforementioned time delay - when the Bulk cone has decreased by a certain amount that is dimensioned in such a way that with further processing of the After opening the discharge flap again, residual material in the funnel can be filled with a separator can.

In the device designed according to the invention, a corresponding cleaning option for the the filter separating the product from the clean air chamber can be provided. The well-known one is ideal for this Counterpressure flushing by switching the fan motor or by connecting the clean air line A flushing air flow is pressed into the clean air line at the pressure port of the blower, which flows through the filter in the separator in the opposite direction and is cleaned in the process.

In the drawing, an embodiment of the training according to the invention is shown. It shows

F i g. 1 shows a longitudinal section through a separation device;

FIG. 2 shows a plan view of the device according to FIG. 1;

3 shows a detailed view of the valve control for the Clean air line according to the line 1II-III in F i g. 2 and

4 shows an overall view of an embodiment the device with three tapping points.

The in F i g. 1 separator, denoted as a whole by 1, has a clean air chamber 2 and a product chamber 3 on. The product chamber is a conically tapering container 4, while the clean air chamber 2 is limited by a cover 5 that closes off this top. The cover 5 can by simple Quick-release fasteners 6 are attached to the container 4, these quick-release fasteners on the one hand on the container, on the other hand, attack the connecting flange 7 of the cover 5.

The material is conveyed into the product chamber 3 via the line 8 and an inlet connection 9 introduced centrally into the cover 5. This chamber 3 is separated from the clean air chamber 2 by a filter cloth 10. The filter cloth is on the one hand attached to the inlet port 9 by means of a tensioning strap and on the other hand clamped between the upper front edge of the container 4 and the connecting flange 7 of the lid 5 in a sealing manner. Operates the system in the suction method, the LuI 1 is canceled from the clean air chamber 2 via the Wied ^(rgegebene clean air duct aspirated 11 where i ^r · the product chamber 3 entering through the inlet nozzle 9 material is separated from the air in which this the upward The material collects in the product chamber, the container 4 forming the product chamber 3 is closed on its underside by a discharge flap 13. This discharge flap is pivotably mounted on an arm at 14 and is located in it The opening of the discharge flap 13 takes place automatically when a corresponding column of material rests on the flap 13 or the negative pressure in the separator after counterpressure rinsing, when compressed air flows in via the clean air line U and the filter cloth moves in collapsed, dented at the bottom

After opening, the discharge flap 13 actuates a Magnetic switch 15, which controls the clean air line 11. For this purpose, the one shown in FIG Facility provided. The magnetic switch 15 actuates a solenoid valve, which the compressed air supply to a pneumatic actuator 16 controls whose piston acts on an arm 17 at its end has a closure 18 for the clean air line 11. This shutter 18 consists of a disc that outside with a lip seal 19 and in its center with a line 11 reaching into the clean air Guide plate 20 is provided. The pneumatic actuator 16 is located during the conveying process in its lower position, so that the shutter 18 is lifted from its seat. So the conveying air can be sucked off through the clean air line 11, the Flap 13 in FIG. 1, when the discharge position shown in dashed lines is reached, the magnetic switch 15 controls the solenoid valve for the pneumatic drive 16 in such a way that its piston is in the upper position Lewegt. The closure 18 with the seal 19 pressed against the mouth of the clean air line 11 so that the associated separator does not more is supplied with good.

In Fig. 4 is one embodiment of an apparatus shown for a total of three delivery points. Each take-off point is equipped with a separator 21 to 23 provided, which are each transferred into a hopper 24 to 26 arranged at the take-off point. the Separators 21 to 23 are connected to the storage container or containers via separate conveying lines 27 to 29 connected. The clean air duct 30 to 32 leaving each separator (corresponding to 11 in FIGS F i g. 1 to 3) opens into a collecting line 33, which leads to the suction port of the fan 34. In this way, are all separators connected one behind the other to a single fan.

Each separator is connected via a line 36, 37, 38 connected to a compressed air connection 35 which controls the pneumatic actuators 16 (see FIG. 3) for the closures 18 the clean air lines. The magnetic switches 15 (see FIGS. 1 and 4) are all separators 21, 22, 23 connected one after the other to the fan control. Furthermore, each magnetic switch is a bypass switch 39 assigned.

The clean air collecting line 33 ends at the separator 23 assigned to the last take-off point 26 in a tube 40 provided with a blind flange. The collecting line 33 can, if necessary, at this point extended and led to a further acceptance point or the separator assigned to it. This acceptance point can also be connected to the pneumatic supply system as well as to the electrical Control can be connected. In a similar way it is possible to set up acceptance points between the already provided.

As shown in FIG. 4, the containers 4 forming the product chamber 3 protrude into the funnels 24, 25 and 26 the Abna'imestellen so that the discharge flaps 13 swivel into the funnel when opening. As soon as a separator with the predetermined amount of material has been filled and ventilated, the discharge flap 13 opens, as is the case with the separators 21 and 23 in FIG. 4 is shown. The material falling into the funnel 24 or 26 forms a pouring cone 41 or 42, which builds up in front of the flap 13 so that it is held in the open position. With these containers, as already indicated, the clean air line is closed, so that the containers during the open position no good can be funded. As soon as the working machine arranged at the Abnahrr.csieüe the goods has taken so far that the flap 13 comes free from the cone of material, as is the case with the funnel 25 is indicated, the flap moves into the closed position due to its counterweight load. It will At the same time, the clean air line 31 is opened via the magnetic switch 15, so that the goods are passed through the transport line 28 can be conveyed into the separator. This promotion is maintained even if For example, the separator downstream of this separator is closed because the electrical Control has a series connection. However, the funding is interrupted if the upstream acceptance point requests good, so the cone has dropped so far that the corresponding

ίο the separator container is closed by the discharge flap 13. If this is again filled and its discharge flap opens, the filling of the downstream separator is continued
Are all funnels 24 to 26 with a to

! 5 Keeping the flaps open provide sufficient cone of material filled, the fan is switched off. This happens even if only a few funnels are filled and on the bridging switches 39 are inserted at the remaining acceptance points.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Device for loading several delivery points with pneumatic storage containers conveyed bulk material, ζ. B. for feeding extruders with plastic granulate, with each take-off point upstream separators each having a clean air and a product chamber, the on the delivery side separately to the storage container or containers and on the clean air side one behind the other to a fan are connected, and with one assigned to each separator, the flow rate flowing through it depending on the degree of filling interrupting control, characterized in that the controls of all separators are connected to the fan control one behind the other and that the product chamber (3) opens with a predetermined weight and after complete emptying with a time delay automatically closing discharge flap (13) is, and that the control of a responding when opening the flap switch (15) and a valve (18) brought into the closed position by this in which the separator (1) leaving clean air line (11) exists. 2. Apparatus according to claim 1, characterized in that the switches (15) of all separators (21, 22, 23) are connected in series to the fan control. 3. Apparatus according to claim 1 or 2, characterized in that each switch (15) is a Bypass switch (39) is assigned. 4. Device according to one of claims 1 to 3, characterized in that the separator (21, 22, 23) filled hopper (24, 25, 26) of the take-off point into which the discharge flap (13) pivots in, is so dimensioned and arranged with respect to the separator that the flap of the Good (41, 42) emptied into the funnel is kept open.