DE869725C - Knocking device for bag filter - Google Patents

Description

Knocking device for bag filters It is known for suction systems thereby recovering the dust retained in the hanging filter bags and to collect that, by a powered device, the hose suspension members periodically raised and lowered, thereby jarring the filter bags, so that the dust in them falls out of the filters that are open at the bottom. About the air suction that prevents dust separation during hose cleaning turn off, it is also known to design the device so that the suction the dust-free air from the chamber containing the filters through one of the device controlled throttle valve is temporarily interrupted. The known devices of these types are very intricate in construction and, as a result, are in the process of being manufactured expensive. The devices require a relatively strong drive, as through the friction in the many bearings and dog clutches force is lost.

Bag filter systems are also known in which on the driven Shaft the control elements for the suction and the drive elements for the knocking are arranged. However, these are arranged concentrically on a circle Filter chambers that have a central, common, vertical drive shaft. The advantage of the common drive shaft is offset by the disadvantage that this Bag filter systems can only be produced with spatially limited dimensions can, because the installation of a large diameter, cylindrical overall housing jacket would take up too much space.

To the above-mentioned in the various known dust separation devices To avoid existing disadvantages, a knocking device for in several Chambers below brought bag filters, being cam-like, the Drive elements causing knocking together with control elements for the suction the dust-free air from the filter chambers is arranged on a driven shaft are proposed according to the invention that with several adjacent filter chambers the driven shaft is arranged horizontally above the chamber, the driven shaft for each chamber one knocking cam and one in the suction air shaft working throttle wears.

Further features of the invention are that in the individual air shaft the circumferential movement cylinder of the throttle valve blocking the passage of air; Bieche of such an extent that the shaft is blocked as long as the cam-like drive members of the knocking work. For example, four next to each other arranged filter chambers, the cam disks and the throttle valves are such arranged offset to each other that a flap is closed while the remaining flaps are fully or partially open.

In the drawing are exemplary embodiments of the new device shown.

Fig. I shows the device assembled with the filter chamber seen from the side, partially drawn in section; Fig. 2 is a schematic Drawn diagram of a system with four filter chambers. same components are denoted by the same reference numbers in both figures.

If only one filter tube 2 is drawn in the filter chamber I in FIG is that hangs on the suspension member in the form of a simple bolt 3, so should that does not exclude the possibility that in practice a whole Number of hoses arranged in parallel can be located, all of which are connected to a common Hang the hanging device.

The filter hose or bag closed at the top and open at the bottom 2 is attached at the bottom to a ring 4 of the partition wall 5 closing off the chamber I, to which the dust collection chamber 6 adjoins below. In him there is one on the wave 7 mounted screw conveyor 8 mounted, which the separated dust to the outside promotes. i The line coming from the dust-generating systems or machines is connected to the nozzle 9 of the room 6. The air is extracted from the filter chamber I sucked through the channel or shaft Io above.

Through the center of the shaft 10 extends a shaft 11 whose Bearings are not shown in the drawing. On wave I I is within the Schachts a throttle valve 12 and in the example shown in front of him a cam I3 attached, the cylindrical periphery of which on two diametrically opposed Places with, for example, three gaps 14 each is provided. So that the throttle valve I42 keeps the shaft 10 closed while the three gaps are working the cylindrically curved metal sheets 15 are fastened in the shaft.

In a bearing located on top of the filter chamber I6 is means of the bolt I7 mounted a double-armed lever I8, one end of which with a Roller 19 is provided which cooperates with the periphery of the disc 13. The other The end of the lever I8 carries the suspension bolt 3 and a rod 20 with the locking disc 21 for the air inlet opening 22 of the filter chamber I. The articulated connection the parts 3, 20 with the lever 18 can be done in any suitable way, For example, a head 23 is attached to the bolt 3, in the side cutouts the lever i8 engages. The convex surface 24 of the cutout rolls in the Swiveling the lever on the lever. Below the head 23 is one of the bolts 3 penetrated stop 25 available, which in practice by a rail of the iron structure the chamber I can be formed.

The device works as follows: Through the connected to the shaft 10, The suction line (not shown) becomes the dusty one through the filter hose Air sucked in, the dust of which is retained in the filter. There is The filter hose in the drawn tensioned position, which is created by the system of the Lifting roller 19 is due to the smooth circumference of the cam disk I3. Has become slow rotating driven shaft II and with it the disk I3 shown in the drawing Position reached, then the throttle valve I2 begins to close the shaft 10, so that the suction is interrupted. As the rotation continues, the roller 19 falls below the effect of the load hanging at the other end of the lever I8 in the first gap 14, which occurs suddenly as a result of the corresponding design of the gap flank. The bolt 3 falling due to the sudden pivoting of the lever strikes with its head 23 on the stop 25 so that the filter tube 2 is loosened and shaken will. The loosened dust falls out of the bottom of the filter and gets into the Screw conveyor 8.

At the same time, the air inlet opening 22 is down through the falling closure disk 21 opened so that outside air enters the filter chamber, which is explained below with reference to FIG.

If you continue to turn the cam, the lever I8 is activated by the pressure the other flank of the gap Iq is slowly swiveled back, so that the bolt 3 rises again and the opening 22 closes again. The filter hose 2 takes its tension again. This work cycle is repeated when the Roll 19 in the second and third gap 14. Is the roll 19 out of the last gap leaked out, then the throttle valve begins to open and suction continues back on. After a little less than half a turn of shaft II, the Lever roller 19 in the first of the other gaps 14 and again three times Knocking begins.

The device described can be multiplied as desired. According to Fig. 2 four filter chambers Ia, I>, IC and Id are combined to form a system. collected, whose shafts Ioa to Iodine are connected to a common suction line. on of the common, continuous shaft 11 are the four cam disks I3a to I3d and the four throttle valves 12a to 12d attached. How to recognize the visual image lets, the cam disks and the throttle valves are offset from one another arranged that there is always a device in action, in Fig. 2 the Device I29, I3 &. Of the rest of the throttle bodies, one, 12C, is whole open while the flaps I2a and I are in intermediate positions.

All filter chambers stand through the openings of the filter hoses with each other in connection, so that also in the closed by the throttle valve 12o Chamber Ib there is a negative pressure, but this affects the inside of the filter hose affects. This negative pressure causes outside air to enter the chamber through the opening 22b Ib sucked, which now flows through the filter in the opposite direction than before, which supports the dust separation as a result of the sudden vibration will.

It should be mentioned that the closure disk 21 also with the suspension member 3 can be connected. The two shafts 7, II can be belt or chain drive be connected to each other so that it does not matter which of these waves is powered is. The use of a fast-running electric motor implements the arrangement of Reduction gears ahead, since shaft II only rotates very slowly is required.

Therefore, the device becomes a step-wise electromagnetic Propulsion proposed of every gear except a simple one of the shaft II makes assigned manual transmission superfluous.

PATENT ANSPNÜclIE: I. Knocking device for housed in several chambers Bag filter, with cam-like drive elements causing the knocking off together with control elements for the extraction of dust-free air from the filter chambers are arranged on a driven shaft, characterized in that with several adjacent filter chambers the driven shaft (II) horizontally above the chambers and for each chamber a knocking cam disk (13) and each has a throttle valve (I2) working in the suction air shaft (Io).

Claims (1)

2. Knocking device according to claim I, characterized in that in the individual air shaft (1 o) the circumferential movement cylinder of the throttle valve (I2) sheets (I5) blocking the passage of air are assigned to such an extent, that the shaft is blocked as long as the cam-like drive elements (13, I4) the tapping work. 3. Knocking device according to claim I, characterized in that z. B. with four filter chambers (I) the cam disks (IX, I4) and the throttle valves (I2) are offset from one another in such a way that a flap is closed, while the remaining flaps are fully or partially open. 4. Knocking device that during. the dust separation with closed Throttle valve holds a scavenging air inlet opening of the filter chamber open, according to Claim I, characterized in that the closure (2I) of the scavenging air inlet opening (22) is connected to the double-armed lever (I8) known per se, which in known Way on the one hand with the cam disk and on the other hand with the hanging member of the Bag filter cooperates. Attached publications: German patent specifications No. 441 252, 503 778, 523 860, 606 956, 621 4I5, 701 213.