CH684475A5 - Switching for a fiber transport airflow. - Google Patents

Description

1

CH 684 475 A5

2nd

description

The invention relates to a switching device according to the preamble of claim 1.

Switching devices of this type with a switching flap are used in particular after metal detectors or stone detectors in order to redirect the flakes with a foreign part as quickly as possible. A quick response time of the switch flap allows a short path between the detector and switch flap. A long distance impairs precise removal of the foreign part. For the use of such switchover flaps in the textile industry, it is necessary that the conveyed fibers do not clog the switchover flap. Blockages occur e.g. when fibers get stuck at storage points. A moving switching flap plate cannot simply be e.g. in the case of granules, be swiveled against the air flow, otherwise the fibers will fold and get caught on the leading edge. This leads to so-called "braids" and clogs the airway. It is therefore customary to carry out the material deflection in the air flow by means of two interacting switching flap plates. The switching flap plates are switched «with the current», i.e. the flow direction points from the pivot point to the edge of the switch flap plates. In a branch, each branch is closed by a switch flap plate. This construction is complex and, due to the two moving masses and the double air resistance, difficult to bring to the desired fast response time. DE-PS 1 268 057 describes a switchover flap in which the switchover flap plate is bent in the shape of a crescent moon. The crescent-shaped sheet is rotatably supported, the storage is outside the housing. A quick reactivity is not shown, the storage tends to accumulate fibers.

The object of the invention is to provide a switching device of the type mentioned, which is simple in construction, causes little blockages and can switch extremely quickly.

This object is achieved by the characterizing features of claim 1, i.e. So through the interaction of a special switch flap shape and a special pneumatic control.

Advantageous embodiments of the invention are described in the dependent claims 2 to 7 and with reference to the drawing below, the figure showing the switching device in vertical cross section.

The switching flap 4 is constructed around a pipe section 2 of approximately 70 to 120 mm in diameter. A link lever 5 for a pneumatic actuating cylinder 6 is attached to this piece of pipe and attached obliquely with respect to the changeover flap. The switchover flap is not designed as a sheet metal tongue, but as a solid body, with a thickness similar to the diameter of the pipe section 2. The side of the switchover flap facing the direction of flow is greatly rounded, as a result of which the fibers are folded around the switchover flap 4

Inflow prevented. The pipe section 2 can be pivotally mounted about its axis 3, the storage taking place inside the pipe section 2 and not outside the side walls of the switchover flap, this avoids slits in the side wall of a housing 1, in which fibers otherwise settle. The switching flap is moved by the pneumatic cylinder 6. In order to achieve extremely quick opening and closing, a special control of the compressed air is used. At rest, the pressure P1 is about 10 to 20% higher than the pressure P2. In the idle state, a piston 9 of the actuating cylinder 6 in the cylinder 10 has not moved into the rear end position, but its movement is limited by a stop 7. This creates a cavity 8 filled with compressed air at a pressure P2. The force generated by the pressure P1, however, is greater and presses the articulation lever 5 against the stop 7. To reverse the switching flap, the pressure P1 is removed and the air in the cavity 8 under the pressure P2 drives the piston 9 back, then the Pressure P2 builds up again and the changeover flap is ready for another changeover.

Preloading the switchover flap with a spring could not cause the switchover flap 4 to switch back so quickly.

The transport air flow enters the switchover device at A and normally leaves it at B in the direction of B.

When reversing, the switching flap 4 directs the air flow in direction C and blocks direction B.

Claims (7)

Claims 1. Switching device for a fiber transport air flow, with a switching flap, characterized in that the switching flap (4) is designed as a full body and can be actuated by a pneumatic cylinder (6) containing a piston (9) which acts on different pressures (P1, P2) can and has in at least one end position an air space (8) for storing compressed air. 2. Switching device according to claim 1, characterized in that the switching body designed as a solid body (4) has a thickness of 60 to 140 mm and at the leading edge a curve with a radius of 30 to 70 mm. 3. Switching device according to claim 1 or 2, characterized in that a pivot bearing (2, 3) of the switching flap (4) is arranged within the walls of a housing (1). 4. Switching device according to one of claims 1 to 3, characterized in that the storage air space (8) in the cylinder (10) makes up at least 10% of the volume which is traversed by the piston (9) when the pneumatic cylinder (6) is extended. 5. Switching device according to one of claims 1 to 4, characterized in that in at least one end position, both sides of the piston (9) can be acted upon simultaneously with compressed air. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 2nd 3rd CH 684 475 A5 6. Switching device according to one of claims 1 to 5, characterized in that the bilateral action on the piston (9) with air can only be achieved after reaching an end position. 7. Switching device according to one of claims 1 to 6, characterized in that one of the two pressures is 10% greater than the other. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 3rd