DE19603580C2 - Device for conveying bulk goods - Google Patents

Description

The invention relates to a device according to Preamble of claim 1 for the promotion of Bulk goods.

As bulk goods, to promote the device primarily comes into consideration are stone and lignite, coke from these coals, petroleum coke, San de fine ore and metals, limestone and any dust of these substances as well as filter dusts and fly ash Coal-fired power plants as well as combination products that from mixing sludge with fly ash or a dust of any of the foregoing arise, with an example of a combination product is to be mentioned, which consists of the mixing of damp roll mud with fly ash, coal or Coke dust arises It is crucial that the för the substance or the mixed product in one state are available where they can be conveyed pneumatically. This Condition requires that the substance to be promoted or Mixed product sufficiently dry and sufficient is fine-grained so that it crosses through conveying lines cuts up to 2 "is transportable.

An area of application for the device are, for example wise incinerators or ovens for metal heap, such as blast furnaces or furnaces for melting of metals, for example electric arc furnaces or cupola furnaces. In such, for metallurgical professionals It is common for ovens used to contain carbon Blow in dusts to reduce metal oxides. During a metallurgical process changes the condition of the melt is ongoing. About regulation directions is the amount of coal to be blown or coke dust depending on the state of the melt adapted one, for a metered promotion suitable for conveying dusty goods device is known for example from EP 0 164 436 B1 The one for pneumatic conveying in particular small amounts of dust to a metallurgical Vessel known device sees a multiple e jector, which is suitable for a plurality of Delivery lines leading to the same metallurgi lead vessel, at the same time with men of equal size of coal dust.

A device according to the preamble is known from DE-44 00 029 in this device a piston is slidably arranged in a tube, wherein the piston has a longitudinal bore through which Compressed air is blown in. By moving the Piston the inlet opening in the pipe is constantly ver shrinks, so that thereby a regulation of the funded th amount is reached.

The disadvantage of this known device is however, in that the quantity delivered is not linear in Dependence of the piston movement is, but that here inconsistencies in the funding volume occur, so that such an injector for precisely metered control of bulk goods is only suitable to a limited extent.

The invention has for its object a to train the direction of the type mentioned at the beginning, that this is a continuous regulation of the amount of conveyed bulk goods without discontinuity in the To create output that is also easy to set up, inexpensive to manufacture and safe to operate is. In particular, a device should be created those who have an approximately linear dependency of the funding results in the displacement of the piston.

This task is accomplished with the characteristics of the claim ches 1 solved.

A device according to the invention is distinguished due to a large, reproducible control accuracy off, with no problems over the entire controlled system activity in the control behavior. The funded men So ge is essentially over the entire controlled system Chen continuously changed, the design the inlet opening in the conveyor pipe and the Ausgestal the recess in the piston is decisive for the good rule success. With appropriate design tion of this opening or the recess can be approximately a linear dependence of the delivery rate on the Kol be achieved. To achieve this, decreased the width of the entry opening in the exit direction continuously while the width of the recess in Piston from the face of the piston to its opposite opposite end decreases accordingly. Good results nisse were already in an arrangement of the Ein opening like the recess in the form of a triangle kes reached, with the bases of the two triangles one face each other. Another influencing variable for the determination of the control behavior lies in depth the recess in the piston justified, this off save up to the longitudinal bore in the piston can.

Above the inlet opening in the In ejector a filler neck is provided, which is advantageous connected to the bottom of a storage container is. With suitable bulk materials, the feed can done solely by gravity. With difficult Gü Pressure can also be applied to the supply container are provided. The piston of the injector is connected to an actuator with a Position detection is provided so that the piston in Ab depending on the quantity requested ver can be pushed. The piston in the injector is in front partially rotatably arranged, but this can also be rotatable by a certain amount, so that the regulation not only by the longitudinal ver pushing the piston, but also by a Dre hung can also be influenced.

The recess in the piston advantageously ends briefly above the mouth of the longitudinal bore in the piston, through which the feed gas is supplied. The recess in the piston advantageously has a rectilinear, prismatic Shape, but it can also be before reaching the forehead side of the piston gently bent up or down be angled. The reason for this is a ver reduction of the bulk material occurring to the in wear of the inner wall of the delivery pipe eats.

Compressed air is usually used as the conveying gas, but also inert conveying gas, such as. B. CO ₂ , argon or nitrogen and nitrogen are considered.

For moving and locking the piston inside A servomotor and a serve half of the delivery pipe Actuator, the latter with a side arm either at the outer end of the piston or over a recess in the tube on the piston can.

The second possibility has the advantage that this a jam-free transmission of the actuating forces to the Piston is reachable. As a rotary actuator Most threaded spindle used in a rotatably mounted nut is arranged, which of a gear motor is rotated. Such a position drive enables particularly precise movements and Positioning the threaded spindle and thus the  Pistons while transferring large Actuators.

The injector over the longitudinal bore of the Kol The feed gas supplied occurs on the surface of the front recess. An advantageous one Further development of the invention consists in Use a blowpipe in the longitudinal bore in the piston also slidably arranged in the longitudinal bore is. This enables the mouth of the injector tubes regardless of the position of the col end at different distances from this allow. Such an adjustment is then advantageous when it comes to applying high discharge pressures to large or to overcome bulk heads promote that have a high density.

It is also advantageous to have the piston on his To apply volume with the conveying gas. For this are Bores arranged in the pipe through which the conveyor gas is passed through. Ring seals ensure that there is no feed gas at the rear end of the piston exit. This configuration is advantageous if bulk goods that tend to stick to are promoted should. Extend the ring around the circumference of the piston Conveying material keeps the bulk material from the inside Wall of the delivery pipe and thus reduced at the same time the wall friction of the piston in the delivery pipe, which improves positioning accuracy.

The injector below a front is advantageous Council container arranged so that particularly dry and free-flowing bulk goods without pressurized gas supply of the container can be promoted. In the event of, that pressurizing the reservoir is necessary, it is advantageous if between the Outlet of the storage container and the injector one flameproof, lockable flap is arranged.

An embodiment of the invention is as follows the described in more detail with reference to the drawing. In this demonstrate:

Fig. 1 is a side view of a device according to the invention,

Fig. 2 is a plan view of the invention from injector formed, partly in section,

Fig. 3 is a side view of the injector of FIG. 2, partially in section and

Fig. 4 shows a section according to line IV-IV in Fig. 3.

In Fig. 1, an apparatus according to the invention is provided, which an injector 1 for the promotion of z. B. has coal dust. The injector 1 consists of a delivery pipe 2 which is provided with a filler neck 3 . On the outlet side of the delivery pipe 2 , a diffusion cone 4 is arranged, to which a supply line 6 is connected, which in the embodiment shown leads to a cupola 7 which is supplied with coal dust.

The injector 1 is supplied with compressed air 23 via a supply line 5. At the filler neck 3 of the injector 1 , a valve 8 is flanged, on the other side of which a storage container 9 is provided, which is provided with a filling opening 10 , via which the container 9 with z . B. coal dust is charged. The reservoir 9 is also closable with a valve 10 . In a known manner, this reservoir has a vent valve 12 and two measuring probes 13 , 14 , via which the fill level of the reservoir 9 can be determined. A connection 15 for a compressed air line 16 is also provided on the storage container 9 , so that the pressure inside the storage container can be adjusted with the aid of a control valve 17 . The compressed air line 16 also has a check valve 18 .

Furthermore, a compressed air supply line 20 is ruled out at the outflow opening 19 of the storage container 9 , via which the compressed air is blown in for fluidizing the carbon dust in order to improve the flow behavior. A check valve 21 is installed in the compressed air line. The compressed air supply lines 20 and 16 are connected to the pressure supply line 23 via a re gel valve 22 . The same applies to the supply line 5 , which is connected to the pressure supply line 23 via a pressure control valve 24 .

At the pressure supply line 23 a further compressed air line 26 is connected, which is provided with a shut-off valve 27 . The compressed air line 26 feeds a bypass line 28 , which opens into the delivery line 6. The task of the bypass line is to remove any blockages in the delivery line 6 with the help of a pressure surge.

In Figs. 2 to 4, the injector 1 is shown in a larger scale in detail. In the conveying pipe 2 of the injector 1, a piston is mounted longitudinally displaceably, the pipe via O-ring seals 50 with respect to the conveyor is sealed 2 In the conveying pipe 2 is formed an inlet opening 29 below the filler tube 3 whose cross section can be seen in Fig. 2 These here essentially by an opening, the width of which is increasingly reduced in the conveying direction, which is seen in triangular form substantially in the plan view.

On the end face 52 of the piston, a recess 40 is provided which, as shown in FIG. 3, is triangular in side view and, as can be seen in FIG. 2, is also triangular in plan view, the tip of the Triangle is opposite to the conveying direction. In the embodiment example, this cutout 40 opens into the piston 32 just above the longitudinal bore 53 . The diameter of the filler neck 3 is reduced in cross section approximately to the dimensions of the inlet opening 29 in the delivery pipe 2 .

In the exemplary embodiment, the supply line 5 is attached to the rear end of the piston. However, it is also conceivable to connect the supply line 5 to a blowpipe which is inserted into the longitudinal bore 53 of the piston 32 and is arranged in this longitudinally displaceable. This allows the blow-out opening to be set rela tively to the piston front side.

In the embodiment, a recess 55 is provided in the area between the two seals 50 in the outside of the tube 2 , through which an arm 54 engages, which is fixedly connected to the piston 2. The arm 54 is engaged by a spindle 37 , which has a Actuator 38 is moved. Since the arm 54 is guided in a narrow slot 55 , a rotation lock for the piston 32 is obtained here at the same time.

However, it can also be advantageous to allow limited rotary movements of the piston in order to achieve a further setting option for the size of the surfaces, which is obtained from the opposing recess 40 in the piston 32 and the inlet opening 29 . By Ausgestal device of the recess 40 in the piston 32 and the shape of the inlet opening 29 in the delivery pipe 2 , a rule behavior of the injector is obtained, which primarily has no discontinuities and on the other hand ensures an essentially linear dependence on the displacement path of the piston it is possible to regulate the quantity delivered by the injector 1 very sensitively and in the shortest possible time. This is a requirement for the use of such an injector z. B. in cupola furnaces that have a constantly changing need for z. B. have coal dust.

In the exemplary embodiment, this is not shown, but 50 holes for the compressed air supply to the outside of the piston 32 can be hen in the delivery pipe 2 in the area outside the seals. As a result, the penetration of dust between the piston 32 and the delivery pipe 2 is avoided ver and on the other hand, the smoothness is increased.

The front end of the piston can be chamfered be, as shown, for example, by DE-44 00 029 on the one hand to not create spaces in which Schütt is located can sell well and on the other hand a lighter one Obtain feed for the bulk material.

Reference list

1

Injector

2nd

Conveyor pipe

3rd

Filler neck

4th

Diffusion cone

5

pipe

6

supply line

7

cupola

8th

Valve

9

Storage container

10th

Filling opening

11

Sealing cap

12th

Vent valve

13

Measuring probe

14

Measuring probe

15

Connection

16

Compressed air line

17th

Control valve

18th

check valve

19th

Outflow opening

20th

Compressed air supply

21

check valve

22

Control valve

23

Pressure supply line

24th

Pressure control valve

25th

check valve

26

Compressed air line

27

Shut-off valve

28

Bypass line

29

Entrance opening

30th

flange

31

32

piston

33

34

35

flange

36

37

spindle

38

Servomotor

39

40

Recess

50

Seals

52

Piston face

53

Longitudinal bore

54

poor

55

Recess

Claims (17)

1. Apparatus for the metered conveyance of bulk goods with an injector ( 1 ) with a För derrohr ( 2 ), in the wall of which an inlet opening ( 29 ) is recessed, which extends from a substantially perpendicular to the axial direction of the filler neck ( 3 ) is enclosed, a piston ( 32 ) being inserted sealingly and displaceably in the longitudinal direction in the delivery pipe ( 2 ) in such a way that it completely or partially closes the inlet opening ( 29 ) in the delivery pipe ( 2 ) and the piston ( 32 ) with at least one Longitudinal bore ( 53 ) is hen, via which the feed gas can be fed to the injector ( 1 ), characterized in that the width of the inlet opening ( 29 ) in the feed pipe ( 2 ) is continuously reduced in the conveying direction, that in the inlet opening ( 29 ) cooperating piston section, a recess ( 40 ) is formed, the width of which decreases continuously from the end face of the piston. 2. Device according to claim 1, characterized in that the depth of the recess ( 40 ) in Kol ben ( 32 ) decreases with increasing distance from the piston front ( 52 ). 3. Apparatus according to claim 1 or 2, characterized in that the recess ( 40 ) in the Kol ben ( 32 ) extends below the longitudinal bore ( 53 ) of the Kol bens ( 32 ). 4. Device according to one of claims 1 to 3, characterized in that the recess ( 40 ) in the piston ( 32 ) is triangular in cross section perpendicular to its longitudinal axis. 5. Device according to one of claims 1 to 4, characterized in that seen in plan view, the inlet opening ( 29 ) and the recess ( 40 ) in the piston ( 32 ) are triangular. 6. Device according to one of claims 1 to 5, characterized in that the end face ( 52 ) of the piston ( 32 ) is chamfered. 7. Device according to one of claims 1 to 6, characterized in that the piston ( 32 ) and the delivery pipe ( 2 ) are sealed against one another via one or more lines ( 50 ). 8. Device according to one of claims 1 to 7, characterized in that the cross section of the filler neck ( 3 ) ste tig from its feed side to the cross section of the inlet opening ( 29 ) in the delivery pipe ( 2 ) reduced. 9. Device according to one of claims 1 to 8, characterized in that in each longitudinal bore tion of the delivery pipe ( 2 ) a blow pipe is arranged bar. 10. Device according to one of claims 1 to 9, characterized in that the longitudinal bore ( 53 ) in the piston ( 32 ) and thus the blow pipe in the axis of symmetry of the piston ( 32 ) receive the delivery pipe ( 2 ). 11. Device according to one of claims 1 to 10, characterized in that the displacement of the piston ( 32 ) in the delivery pipe ( 2 ) with the aid of an actuator motor ( 38 ). 12. The apparatus according to claim 11, characterized in that the servomotor ( 38 ) on the conveyor tube ( 2 ) is flanged. 13. The device according to one of claims 1 to 12, characterized in that the actuator ( 37 ) consists of a rotationally fixed spindle and a side arm ( 54 ) which engages the piston ( 32 ). 14. Device according to one of claims 1 to 13, characterized in that the piston ( 32 ) is rotatably guided in the delivery pipe ( 2 ). 15. The device according to one of claims 1 to 13, characterized in that the piston ( 32 ) is rotatably guided in the delivery pipe ( 2 ). 16. The device according to one of claims 1 to 15, characterized in that the delivery pipe ( 2 ) is provided with bores for the introduction of compressed gas between the piston ( 32 ) and delivery pipe ( 2 ). 17. Device according to one of claims 1 to 16, characterized in that the filler neck ( 3 ) is provided with a closable flap.