DE19809529A1 - Anti-wear pipe rim for pipe feeding supply of semi-liquid concrete - Google Patents

Abstract

A pipe (1) feeds a supply of liquid concrete from a center section (2) towards an outlet with an outer locking bush (4) with a locking groove (5) and end-flange (6) with recess (7). The recess houses an anti-wear ring (15). The material selected for the ring has better abrasion-resistant characteristics than the pipe center section, and is held in place by a rolled-over flange edge (18).

Description

The invention relates to a transport pipe for fluid Promotion of solids.

It has been shown that in fluidic delivery of solids, such as B. concrete, especially in the area the ends of the transport pipes, increased wear occurs. The wear resistance compared to that in the Re very abrasive solids is obtained by using high-strength wear rings increased in the transverse planes are chambered by coupling collars, which are located on the Ends of cylindrical central parts. This ver So far, wear rings are mainly made by gluing specified (see e.g. DE 196 07 871 A1). The middle parts can be straight or curved.

It has now been found that the wear rings under Removal of the adhesive connection over the end faces of the Coupling collars into the joints between two successive transport pipes are relocated,  so that between the pipe-side end faces of the Ver wear rings and the adjacent chamber walls column arise. Especially when cleaning transport pipes for conveying concrete where the in transport pipe still existing concrete by means of suction effect and rei cleaning balls in the opposite direction to the conveying direction concrete can then settle in these gaps. The wear rings thus lose their operating position NEN, so that the transport pipes in this way get longer. Must now for maintenance or replacement a sealing ring a coupling between two on top of each other following transport tubes are loosened, it is true still possible, such an extended transport pipe ra to remove dial from the tubing string. In conclusion it is due to the relaxation of the pipe string no longer possible this transport pipe without considerable effort reinstall in the pipe string.

The cause of the displacement of a wear ring can e.g. B. a too small radial ring-shaped adhesive surface in the dome be a covenant. This is the case when the zylin middle part of the transport pipe up to the receptacle chamber for the wear ring is pushed through and le only a circumferential gluing between the dome lungsbund and the wear ring. Furthermore for a sufficiently good bond, the glue point for a long time under a temperature of around 70 ° C to 100 ° C can be cured. The clutch collars and the wear rings are therefore so far in advance as complete assembly manufactured and so to length assigned to cut cylindrical middle parts.

The invention is based on the prior art Task based on a transport pipe for fluidic För change of solids, such as. B. Concrete to create  which is a chambered wear ring in all operations situation.

According to the invention, this object is achieved in the features of claim 1.

The non-cutting shaping of at least end faces cut the flange to fix the position of a ver Wear ring has the great advantage that an axial Displacement of the wear ring from its intended moderate operating position is reliably prevented. Quasi Extension of the transport pipe is omitted, so that it removed radially from the tubing with little effort and can also be reintegrated.

In contrast to gluing the wear ring with the radial chamber back wall, this one min must have minimum width in order to ensure secure bonding ensure, is the width of the type according to the invention the fixation of the position is irrelevant and can therefore be dimensioned smaller. Furthermore, the necessary curing time for sufficient bonding at elevated temperatures. The manufacturing effort ver wrestles.

It is therefore possible within the scope of the invention that the straight or curved cylindrical middle part extends all the way to the wear ring. Alternatively, you can but also another wear ring between the zylin middle part and the end wear ring be arranged.

The cylindrical middle part can be formed in one layer be subjected to an inside hardening is. But a two-layer version is also conceivable. Then the inner tube is hardened and has a higher one  Wear resistance on than the outer jacket pipe that absorb impact and transport loads should.

The non-cutting deformation of the face of the flange can from the radial and / or axial direction to the longitudinal axis of the Transport tube done. When forming from radial The direction to the longitudinal axis of the transport pipe is the rounded outer edge of the flange and the displaced material at least in sections, e.g. B. in the form of fixing lugs, pressed.

The deformation from the axial direction can be a notch cause the end of the flange, which ver pushed material out radially inward lugs forms.

If the deformation is carried out to the full extent, then fixed according to claim 2, a continuous ring collar Ver wear ring in its position.

In any case, the forming takes place in such a way that the pressed material does not axially over the face of the flange protrudes.

The invention is based on in the drawings gene illustrated embodiments explained in more detail.

Show it:

Figure 1 in vertical partial longitudinal section, the end region of a transport pipe for concrete.

Figure 2 in vertical partial longitudinal section, the Endab section of a transport pipe for concrete according to a second embodiment.

Fig. 3 in vertical partial longitudinal section, the end region of a transport pipe for concrete according to a third embodiment and

Fig. 4 is a frontal view of a transport pipe according to the arrow IV of FIG. 1 in two variants.

In Figs. 1 and 4, 1 denotes a cylindrical transport pipe for the fluid conveying concrete. The wall thickness WD of a single-layer straight cylindrical section 2 is constant over the entire length. The middle section 2 is hardened to increase the wear resistance to a certain depth from the inner surface 3 .

For the axial coupling of two transport pipes 1 , each transport pipe 1 is provided at both ends with a umlau fenden coupling collar 4 . The coupling collar 4 has a trapezoidal coupling groove 5 and an end-side flange 6 with a to the longitudinal axis LA of the trans port tube 1 open receiving chamber 7 . The flange-side wall 8 of the coupling groove 5 runs radially, while the opposite wall 9 is inclined towards the central section 2 .

The coupling collar 4 is pushed so far on the central section 2 that the end face 10 of the central section 2 in the transverse plane QE of the radially extending chamber wall 11 of the receiving chamber 7 . On the receiving chamber 7 facing away from the end face 12 of the coupling collar 4 is connected circumferentially to the outside 13 of the section 2 Mittelab via a weld 14 .

In the receiving chamber 7 of the coupling collar 4 a Ver wear ring 15 is chambered. Its axial length L is shorter than the depth T of the receiving chamber 7 . In this way, the end face 16 of the wear ring 15 lies in a transverse plane QE2, which is offset in relation to the end face 17 of the flange 6 extending in the transverse plane QE1 in the direction of the transverse plane QE. The inner diameter ID of the wear ring 15 is smaller than the inner diameter ID1 of the middle section 2 . The wear ring 15 is pressed against the chamber wall 11 by an annular collar 18 , which is formed without cutting from the material of the flange 6 . The inner diameter ID2 of the ring collar 18 is smaller than the outer diameter AD of the wear ring 15 . The annular collar 18 thus comprises the outer end edge 19 of the wear ring 15 . As a result, the wear ring 15 is fixed in position in the receiving chamber 7 .

Instead of the circumferential ring collar 18 , the wear ring 15 can also be fixed in its position in the receiving chamber 7 by sections noses 20 distributed over the circumference ver. See also FIG. 4. These lugs 20 , like the annular collar 18, are formed from the material of the flange 6 without cutting.

In the embodiment of FIG. 2, a further wear ring 21 is chambered in the length region of the coupling groove 5 in the coupling collar 4 a. The wear ring 21 contacts the end wear ring 15 in the transverse plane QE of the chamber wall 11 and on its opposite end face the end face 10 a of the cylindrical central section 2 a, which lies in the transverse plane QE3. The coupling collar 4 a has on the side facing the receiving chamber 7 abge a fixing piece 22 for receiving the central portion 2 a. The inside diameter ID5 of the fixing piece 22 is kept larger than the inside diameter ID6 of the coupling collar 4 a in the area of the wear ring 21 . The inside diameter ID3 of the wear ring 21 corresponds approximately to the inner diameter of the central portion 2 a ID4, but it is larger than the inner diameter ID of the flange-wear ring 15 °. The coupling collar 4 a is welded circumferentially to the outside 13 a of the central section 2 a via the end face 23 of the fixing connector 22 . Also in the exporting approximate shape shown in FIG. 2, the end-side wear ring 15 through the chamber wall 11 in the transverse plane QE and the radially inwardly projecting lugs 20 fixed in position or a continuous ring collar 18.

In the embodiment according to FIG. 3, the cylindri cal middle section 2 b of the transport tube 1 b consists of a jacket tube 24 and a hardened inner tube 25 . The inner diameter ID7 of the casing tube 24 corresponds to the outer diameter AD1 of the inner tube 25 , the inner tube 25 , for. B. is fixed by multiple hardening in the jacket tube 24 . The outer side 26 of the casing tube 24 is welded to the end face 23 of the fixing connector 22 on the circumferential side.

The embodiment of FIG. 3 differs from the embodiment of FIG. 2 also by the deviating shape of the lugs 20 a. Fig. 3 shows that the end edge 27 of the flange 6 is not deformed. The lugs 20 a for fixing the wear ring 15 are formed by reshaping from the axial direction to the longitudinal axis LA of the transport tube 1 b, an end notch 28 being formed in the region of the reshaping. Of course, even with this type of reshaping, a circumferential end-side ring collar 18 a can serve to fix the wear ring 15 .

Regardless of the type and direction of the non-cutting formation, no material of the flange 6 extends in the axial direction over the end face 17 of the flange 6 after the deformation. The length of the transport tube 1 , 1 a, 1 b including the coupling collar 4 , 4 a, 4 b does not increase due to the non-cutting shaping.

Reference list

1

Transport pipe

1

a Transport pipe

1

b Transport pipe

2nd

cylindrical middle section

2nd

a cylindrical middle section

2nd

b cylindrical middle section

3rd

inner surface v.

2nd

4th

Clutch collar

4th

a clutch collar

4th

b Coupling collar

5

Coupling groove

6

flange

7

Reception chamber

8th

Wall v.

5

9

Wall v.

5

10th

Front of v.

2nd

10th

a front v.

2nd

a

11

Chamber wall

12th

Front of

4th

13

Outside v.

2nd

13

a outside v.

2nd

a

14

Weld

15

Wear ring

16

Front of v.

15

17th

Front of v.

6

18th

Ring collar

18th

a ring collar

19th

Front edge v.

15

20th

Noses

20th

a noses

21

Wear ring

22

Fixing nozzle

23

Front of v.

22

24th

Casing pipe

25th

Inner tube

26

Outside v.

24th

27

Front edge v.

6

28

score
AD outer diameter of

15

AD1 outer diameter of

25th

ID inside diameter of

15

ID1 inner diameter of

2nd

ID2 inner diameter of

18th

ID3 inner diameter of

21

ID4 inner diameter of

2nd

a
ID5 inner diameter of

22

ID6 inner diameter of

4th

a
ID7 inner diameter of

24th

L length from

14

LA longitudinal axis v.

1

QE transverse plane v.

10th

and

11

QE1 transverse plane from

17th

QE2 transverse plane from

16

QE3 transverse plane from

10th

a
T depth of

7

WD wall thickness from

2nd

Claims (2)

1. Transport pipe (1, 1 a, 1 b) for the fluidic transport of solids, the at least one end a coupling collar (4, 4 a, 4 b) with peripheral side Kupp lungsnut (5) and in the coupling collar (4, 4 a, 4 b) in the transverse plane of the flange ( 6 ) bordering the coupling groove ( 5 ) has an end-face Ver wear ring ( 15 ), which is formed by non-cutting shaping of at least end portions ( 18 , 18 a, 20 , 20 a) of the flange ( 6 ) is fixed in position. 2. Transport pipe according to claim 1, characterized in that the position fixing of the wear ring ( 15 ) by means of a circumferential continuous collar ( 18 , 18 a) is effected, the sen inner diameter (ID2) smaller than the outer diameter (AD) of the wear ring ( 15 ) is.