DE1503693A1 - Jet blower, especially for dedusting in underground mining operations - Google Patents

Description

HEINZ HOLTER Gladbeck i.Westf., Hochstr. 37

Jet blower, especially for dedusting underground Mining operations.

The invention relates to a jet blower, in particular for Dust removal in underground mining operations.

There are already jet blowers with an intake port and a adjoining pressure nozzle designed as a diffuser and an annular air supply nozzle are known. With these Jet blowers that are particularly good at promoting Lumpy material are suitable, the annular Luftzuführungsdüaa around the intake port in the area of its transition to Arranged and has approximately the same diameter ' like the intake manifold. The one emerging from the annular nozzle circular propellant air flow touches with its outer skirt; tel the inner wall of the suction port or the pressure port and is slowed down by friction on these walls. Part of the energy supplied to the blower with the propellant air goes through this lost and can not be used in the intake manifold

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Neua Unterlagan (Art. 7 § r from _8. Ζ N _1. Ι sentence 3 of the amendment ». V. 4.9.1 ·

secondary air entering the blower. This _a,. However, in the case of a blower used for dedusting the exterior, it is quite disadvantageous, since in such a blower the greatest possible amount of secondary air is sucked in with the least possible amount of propellant air and a dedusting device. should be fed.

The invention has for its object to deo this disadvantage known jet blower to eliminate *

The subject of the invention is a jet blower, in particular for dedusting underground mining operations, with an intake connection and an adjoining pressure connection designed as a diffuser as well as an annular propellant air supply nozzle, which is characterized in that the air supply nozzle on tinera hollow body with krtierinfifürjnigam Quqv »- Section is arranged, which is located within the intake manifold and the outside diameter of which is smaller than the inside diameter of the intake port.

With the jet blower according to the invention can easily the radial distance between the annular air supply nozzle and the inner wall of the suction nozzle or pressure nozzle choose so large that the out of the annular air supply nozzle emerging propellant air does not suffer any frictional losses on the inner wall of the suction nozzle or pressure nozzle. In which Blower according to the invention comes both the inner jacket and the outer jacket of the emerging from the Luftxuführungsdüse

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circular propellant air streams in contact with the secondary air entering through the intake port of the blower and accelerates this. *

Particularly favorable conditions and a particularly high degree of efficiency of the blower result when the perpendicular to the longitudinal axis of the blower from the inner wall of the hollow body bounded circular area is about the same size as the Kraisring area, which is delimited by the outer wall of the hollow body and the inner wall of the intake port surrounding the hollow body "

Another considerable advantage of the jet blower according to the invention over the known jet blowers with an annular air supply nozzle results from the fact that in the known blowers the diameter of the annular air supply nozzle could not be ¹ smaller than the inside diameter of the suction device or pressure nozzle. In order to improve the efficiency of the fan, however, the aim is to select the exit cross-section of the annular air supply nozzle to be very small. In the known blowers, in which the diameter and thus also the length of the annular gap of the nozzle is given by the design of the blower, a reduction in the outlet cross section is only possible by reducing the annular gap width, but this is not feasible in practice because If the width of the annular gap is very small, the efficiency of the fan deteriorates. In the jet blower according to the invention, on the other hand, it is not necessary to reduce the annular gap width to an uneconomically small amount, rather it is necessary

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the desired © reduction in cross-section of the annular gap • tÄttd * e * «n durah · 1η · reduction dii Durohm ·» ·· * ·· and d * with the circumferential length of the annular gap can be achieved because in the Jet fan according to the invention, the diameter of the annular gap small? can be chosen as the inner diameter of the An ** suction nozzle or pressure nozzle.

To further improve the efficiency of the jet blower according to the invention, it is always possible to form the hollow body in such a way that ^{it has} a streamlined cross-section "viewed in the longitudinal direction of the blower".

Pie sizes of both those of the inner wall of the hollow body circumscribed circular area is also the circle delimited by the outer wall of the hollow body and the inner wall of the intake port « Take area, seen in the longitudinal direction of the fan, from the front edge of the hollow body to the annular nozzle arranged at its end. This increases the speed of the secondary air entering the blower in the * Accelerated area of the annular hollow body, so that the The secondary air meets that from the annular Air supply nozzle exiting propellant air the speed «

the difference between secondary air and propellant air is proportionate is low V.

Furthermore, it may be appropriate to divide the annular hollow 'body through a provided with passages partition into two chambers "in which one of the chambers, the i.ufts? Ufahrungsrphre open _out%> while in the other chamber

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the ring-shaped nozzle is arranged »This brings about a calming of the propellant air supplied to the nozzle and Turbulence in the propellant air before it enters the nozzle is prevented. This measure also contributes to increasing the efficiency of the jet blower.

An embodiment of a jet blower according to the invention is described below with reference to the drawing in which

Fig. 1 shows a simplified representation of a longitudinal section through the jet fan, while

Fig. 2 also simplified. a cut after the Line H-II of Fig. 1 represents.

In Fig. 1 is that formed from a tubular body The suction nozzle of the fan is designated by the reference number 1. The intake port 1 closes in the longitudinal direction of the fan seen, the pressure port 2 designed as a diffuser.

Within the intake 1 there is one in its entirety means with the reference numeral 3 designated circular hollow body, the outer diameter of which is smaller than the inner diameter of the intake port 1 at the relevant point. Dar Hollow body 3 is with the wall of the intake 1 through pipes 4 connected, which in an appropriate number on the Circumference of the fan are provided distributed and which both serve to connect the annular hollow body 3 to the intake port 1 to connect mechanically, as well as to bring the required propellant air into the 'interior of the circular ring-shaped

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Initiate hollow body 3. The interior of the Hollow body 3 is provided with passage openings through a Partition wall 5 divided into two chambers 6 and 7. The propellant air supply pipes 4 open into the suction opening of the blower pointing chamber 6, while at the end of the chamber 7 pointing towards the pressure port 2 of the blower, the propellant air nozzle 8 is arranged, which has an annular air outlet cross section having.

The annular hollow body 3 is, as can be seen from FIG. 1, streamlined in the longitudinal direction of the fan, so that it offers as little resistance as possible to the air flowing through the fan in the direction of the arrow. The air flowing into the intake 1 of the blower, marked with arrows, is divided by the circular hollow body 3 into an air flow A of circular cross section and an air flow C of circular cross section. Due to the inclined arrangement of both the circular ring-shaped hollow body 3 and the wall of the intake port 1, which can be seen from FIG. 1, against the direction of flow of the secondary air, both the circular cross-section serving for the passage of the air flow A and the circular cross-section, seen in the direction of flow of the secondary air, are reduced the circular cross-section serving for the passage of the air flow C _; so that the corresponding air flows B and D have been considerably accelerated after passing through the annular hollow body 3 when they meet at the end of the annular hollow body 3 with the propellant air emerging from the annular nozzle δ,

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The exiting from the nozzle 8 blowing air flow is indicated in Fig.% With E. According to the circular cross-section of the nozzle 8, it has the shape of a hollow cylinder or hollow cone, the outer surface of which is surrounded by the secondary air flow D, while its interior is filled by the secondary air flow B. comes into contact with the wall of the intake port 1 or the pressure port 2, friction losses are avoided *

As can be seen from FIG. 2, in that area in

which the secondary drawn into the intake port 1 of the blower · «" air comes into contact with the circular hollow body 3,

are available for the circular secondary air flow A / Area and for de'n. circular secondary air flow Q ■ for filling § dividing · Flieh · ttw · equal to »

Patent claims:

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Claims (1)

^p .15_O3.693.8 ._ -β - H 12 - 45 Patent claims: I) Jet blower especially for dedusting in submissive Pit operations with an intake manifold and a calibration on it subsequent pressure port designed as a diffuser and an annular propellant air supply nozzle, thereby characterized in that the air supply nozzle (8) is arranged on a hollow body (3) with a circular cross-section, which is located inside the intake port (1) and the outer diameter of which is smaller than the inner diameter of the intake port. «, Ix 2. Jet blower according to claim I _1, characterized in that the circular area (A) which is perpendicular to the longitudinal axis of the blower and which is delimited by the inner wall of the hollow body 3 is approximately the same size as that circular ring area (C) which extends from the outer wall of the hollow body (3) and the The inner wall of the intake port (1) surrounding the hollow body (3) is delimited « 3. Jet blower according to claims 1 and 2, characterized characterized in that the hollow body (3), in Seen in the longitudinal direction of the fan, has a streamlined cross section. U. jet fan according to claims 1 to 3, characterized characterized in that the sizes of both the circular area (A) bounded by the inner wall of the hollow body (3) 0098 387 0 150 Under ^! a '"J3 ^r " / ■ - - ■' -ti.2 · ■: ·, S: * - I in; ι -: '' * :, 'T = U ¹ ^ - ν 4.9. · as well as that of the outer wall of the hollow body (3) and the Inner wall of the intake port (1) bounded circular area (C), seen in the longitudinal direction of the fan from the front edge of the .Remove the hollow body from the ring nozzle (8) at its end. 5. jet blower according to claims 1 to 4, characterized characterized in that the hollow body (3) by a Partition wall (5) provided with openings in two chambers (6,7) is divided into one of the chambers (6) air supply ^ guide tube («O open, while at the other chamber (7) the annular nozzle (8) is arranged. 009838/0150 Blank page