DE1173874B - Device for separating liquid or solid particles from a gas stream - Google Patents

Description

Device for separating out liquid or solid particles a gas stream A device for separating liquid or solid particles from a gas flow, consisting of a vessel with a central gas supply line and a gas discharge line arranged concentrically around it and having a collecting space for the separated particles in the extension of the supply line with a Series of converging, frustoconical sleeves, each through ring slots are separated from each other, below the gas supply line is known.

In this known gas cleaner, they have from the main gas flow laterally branching partial gas flows have the greatest speed at their starting points, d. H. thus in each case when entering a conical collar. The passage of the ring slots between the cuffs will gradually become larger; the speed of the partial gas flows is thus largest at the beginning and then gradually decreases.

If this known device is further developed according to the invention is that each cuff at its largest edge with a cylindrical, the cuff lengthening collar is provided, a different speed distribution is achieved. The speed of the partial flow is then close to the circumference of the cuff series the biggest.

As a result of the relatively low speed at the junction the entrainment of impurities is avoided, while the higher speed is not a disadvantage when flowing out, because the gas is already at the outflow point is cleaned.

Using the drawing, which shows a longitudinal section of the device, the operation of this device is explained.

The gas to be cleaned is fed through a pipe 1, which is in a Mouthpiece 2 ends, which has a protruding edge 3 on the outside. To the Mouthpiece 2 is joined by a system of essentially cylindrical sleeves 4 to 9.

Each of these cuffs is funnel-shaped at the bottom Provided taper, which is denoted by 10 in the case of the cuff 4. The cuffs 4 to 9 are under one another by three axial spacer plates extending in the radial direction connected, two of which are visible in the drawing and labeled 11 and 12 are. When viewed from above, these three spacer plates are at angles of 1200 to each other. The cuffs 3 4 to 9 are in such a position with the spacer plates welded so that there is an annular slot between them. This is between the cuffs 4 and 5 denoted by 13. From top to bottom, the width of the Ring slot.

With the underside of the spacer plates 11 and 12 as well as with the Cuff 9 is welded to a support plate 14, the edge of which is bent down a little is, whereby a collar is formed. Is concentric around the cuff 4 to 9 the much wider housing 15. The mouthpiece 2 is in the top of the housing 15 attached. The side of this also joins the top of the housing 15 a discharge line 16 for the purified gas. At the bottom of the case 15 is followed by a discharge line 17 for the separated particles. These Line 7 can be closed or opened by a shutter 18. With the inner wall of the housing 15 are three tongues welded to each other 1200 are arranged offset from the axial direction, the two of which are indicated at 19 and 20 are. Screw bolts 21, 22 are fastened in these tongues 19 and 20. These bolts corresponding holes protrude through the support plate 14, while on the bolt, attached to the bottom of the support plate 14, adjacent nuts 23, 24. If those If nuts are screwed further onto the associated thread, the support plate becomes 14 lifted as a result of the system of cuffs 4 to 9 and the three spacer plates the two of which are indicated at 11 and 12, can be lifted. The cuff 4 seals the supply line from the top, as it is provided with a collar 25. This can slide snugly over the mouthpiece 2, the highest position being through the protruding Edge 3 is determined. The system is going up or moved down, the collar of the support plate 14 and the three spacer plates slide over the inner wall of the housing 15. All this has the purpose of assembling and disassembling the system the sleeves 4 to 9 and the spacer plates to facilitate.

When a gas flows in through the tube via the mouthpiece 2, move the particles contained in the gas stream move essentially in the vertical direction downwards and mostly pass the ring openings between the different ones Cuffs without coming out through these openings.

If particles are deposited on the inside of the sleeves, so these collect, especially when it comes to liquid particles, and can flow down. It can then drip down at the bottom of each cuff form. Because each cuff has a funnel-shaped taper, can in this case a drop that has formed comparatively far from it Ring slot away so that the purified gas flows between the cuffs flowing through the ring slot is unable to entrain such drops. A The advantage of this training is that the cuffs are completely the same among themselves can, which simplifies the production. The purified gas collects in the housing 15 and is discharged through line 16. At the bottom from the cuff 19 escaping gas can enter the space within the housing 15 through some openings in the support plate 14, one of which is indicated at 26, arrive.

Claims (1)

Claim: Device for separating liquid or solid Particles from a gas stream, consisting of a vessel with a central gas supply line and a gas discharge line arranged concentrically around this, with a collecting space for the separated particles in the extension of the supply line with a Series of converging, frustoconical sleeves, each through ring slots are separated from each other, below the gas supply line, characterized in that that each cuff (10) at its largest edge with a cylindrical, the cuff extending collar (5, 6, 7, 8, 9) is provided. References considered: U.S. Patent No. 2,316,783.