TWO-PART RESIN INPUT NOZZLE

Abstract

A resin input nozzle (10A) which is adapted to engage or connect to a hollow resin-anchored rock bolt (12) to introduce a resin composed of a plurality of resin components (A,B,C), into and through the bolt, the nozzle including a body (14) with a leading end (16), a leading end portion which ends at a leading end and a trailing end (18), a first conduit (22) and a second conduit (24) formed through the body, each conduit having an outlet (28A, 28B), which opens at or adjacent the leading end, and at least one inlet (26A, 26B) which is adapted to engage with a supply of a respective resin component, wherein the outlets are spaced from one another to prevent mixing of the resin components as each emerges from a respective outlet after passage through a respective conduit.

Claims

1-8. (canceled)

9. A resin input nozzle which is adapted to engage or connect to a hollow resin-anchored rock bolt to introduce a resin composed of a plurality of resin components, into and through the bolt, the nozzle including a body with a leading end, a leading end portion which ends at a leading end and a trailing end, a first conduit and a second conduit formed through the body, each conduit having an outlet, which opens at or adjacent the leading end, and at least one inlet which is adapted to engage with a supply of a respective resin component, wherein the outlets are spaced from one another to prevent mixing of the resin components as each emerges from a respective outlet after passage through a respective conduit.

10. The resin input nozzle according to claim 9, wherein the body is adapted along the leading end portion to sealingly engage or connect to the rock bolt.

11. The resin input nozzle according to claim 10 wherein the body includes a sealing formation engaged with the leading end portion.

12. The resin input nozzle according to claim 9, wherein the first conduit and the second conduit are concentrically arranged, with the first conduit within the second conduit.

13. The resin input nozzle according to claim 11 wherein the first conduit extends beyond the second conduit, at the leading end, to axially space the outlet of the first conduit from the outlet of the second conduit.

14. The resin input nozzle according to claim 11, wherein, within the second conduit, the nozzle includes an axially aligned wall which divides the second conduit into a first portion and a second portion, each portion having an inlet which is adapted to engage with a supply of a resin component or a flushing medium.

15. The resin input nozzle according to claim 9, wherein the first conduit and the second conduit are separate from one another.

16. The resin input nozzle according to claim 14, wherein, at least towards the leading end, the conduits diverge, with each outlet opening through a side-wall of the body, to radially space the outlet of the first conduit from the outlet of the second conduit.

17. A resin input nozzle kit which includes the nozzle according to claim 9 and an adapter which has a forward end, which is adapted to engage with an end of the rock bolt, and a rear end which is adapted to sealingly engage with the leading end portion of the body of the nozzle.

18. The resin input nozzle according to claim 10, wherein the first conduit and the second conduit are concentrically arranged, with the first conduit within the second conduit.

19. The resin input nozzle according to claim 11, wherein the first conduit and the second conduit are concentrically arranged, with the first conduit within the second conduit.

20. The resin input nozzle according to claim 13, wherein, within the second conduit, the nozzle includes an axially aligned wall which divides the second conduit into a first portion and a second portion, each portion having an inlet which is adapted to engage with a supply of a resin component or a flushing medium.

21. The resin input nozzle according to claim 10, wherein the first conduit and the second conduit are separate from one another.

22. The resin input nozzle according to claim 11, wherein the first conduit and the second conduit are separate from one another.

23. A resin input nozzle kit which includes the nozzle according to claim 10 and an adapter which has a forward end, which is adapted to engage with an end of the rock bolt, and a rear end which is adapted to sealingly engage with the leading end portion of the body of the nozzle.

24. A resin input nozzle kit which includes the nozzle according to claim 11 and an adapter which has a forward end, which is adapted to engage with an end of the rock bolt, and a rear end which is adapted to sealingly engage with the leading end portion of the body of the nozzle.

25. A resin input nozzle kit which includes the nozzle according to claim 13 and an adapter which has a forward end, which is adapted to engage with an end of the rock bolt, and a rear end which is adapted to sealingly engage with the leading end portion of the body of the nozzle.

26. A resin input nozzle kit which includes the nozzle according to claim 14 and an adapter which has a forward end, which is adapted to engage with an end of the rock bolt, and a rear end which is adapted to sealingly engage with the leading end portion of the body of the nozzle.

27. A resin input nozzle kit which includes the nozzle according to claim 15 and an adapter which has a forward end, which is adapted to engage with an end of the rock bolt, and a rear end which is adapted to sealingly engage with the leading end portion of the body of the nozzle.

28. A resin input nozzle kit which includes the nozzle according to claim 16 and an adapter which has a forward end, which is adapted to engage with an end of the rock bolt, and a rear end which is adapted to sealingly engage with the leading end portion of the body of the nozzle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] The invention is further described by way of examples with reference to the accompanying drawings in which:

[0026] FIG. 1 is a view in elevation of a resin anchored rock bolt and a resin input nozzle in accordance with the invention;

[0027] FIG. 2 is a view in longitudinal section of the nozzle engaged with the rock bolt;

[0028] FIG. 3 is a view in elevation of a resin anchored rock bolt, an adapter and a resin input nozzle in accordance with another aspect of the invention;

[0029] FIG. 4 is a view in longitudinal section of the nozzle connected to the rock bolt with use of the adapter;

[0030] FIG. 5 is a diagrammatic representation of a resin input nozzle in accordance with a second embodiment of the invention; and

[0031] FIG. 6 is a view in longitudinal section of a resin input nozzle in accordance with a third embodiment of the invention.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0032] Referring to FIGS. 1 and 2 of the accompanying drawings, an internal resin-input nozzle 10A is provided in accordance with a first embodiment of the invention.

[0033] The nozzle 10A is sealingly engageable with a hollow resin-anchored rock bolt 12 as illustrated in FIG. 2.

[0034] The nozzle 10A has a cylindrical body 14, made of a suitable metal, plastics or composite material, which extends, in the axial direction of the rock bolt in use, between a leading end 16 and a trailing end 18. Between the ends, the body comprises a cylindrical outer wall 20 and a cylindrical inner wall 21.

[0035] Within the inner wall 21 and between the outer wall 20 and the inner wall, a first conduit 22 and a second conduit 24 respectively are concentrically defined.

[0036] A respective inlet (respectively designated 26A and 26B) opens into the conduits and each conduit opens out at a respective outlet (respectively designated 28A and 28B). The inlet 26A to the first conduit 22 protrudes from the trailing end 18 of the nozzle body in the axial direction whereas the inlet 26B to the second conduit 24 extends laterally from the outer wall 20.

[0037] The outlet 28B opens at the leading end 16. However, the outlet 28A opens above outlet 28B as the first conduit 22 protrudes slightly relatively to the second conduit 24. This axial spacing of the outlets provides space into which the respective resin components can exit before making contact and mixing, delaying the setting of the resin to further along the resin stream. The benefit is that the mixed resin does not harden near the outlets, thus preventing occlusion.

[0038] A leading end portion 30 of the nozzle body, defined from the leading end 16 to a depth at which the body inserts into a rock bolt 12 in use, is adapted for sealing engagement with the rock bolt. In this example, the portion 30 is adapted with an O-ring seal 34 which seats within an annular groove formed in the outer surface of the outer wall 20.

[0039] Prior to use, a supply conduit (not shown) from a source of a first resin component (designated A) and a second resin component (designated B), engages with the inlets (26A, 26B) to introduce a respective resin component to the first and second conduits respectively.

[0040] The rock bolt 12 which, with use of the nozzle 10A of the invention, is resin-anchored, has an elongate body 36 which extends from a distal end (not shown) to a proximal end 38. A resin bore 40 is formed through the rock bolt body. The resin bore opens into a larger diameter cylindrical receptacle 42 which, in turn, opens onto the proximal end.

[0041] In use, once the rock bolt has been inserted into a rock hole (not shown) and is ready to be resin-anchored therein, the nozzle 10A with connected supply conduits is engaged with the bolt by inserting the leading end portion 30 of the body into the complementary cylindrical receptacle 42 of the rock bolt. The O-ring seals seal against the walls of the receptacle to seal this engagement.

[0042] After connection, resin components, a respective stream of which is designated A and B, can be pumped from their respective sources along the respective supply line conduits to report to the nozzle. The components flow through the respective conduit (22 or 24) of the nozzle, preventing mixing, to be delivered into the resin bore 40 on exiting the respective outlet (28A or 28B).

[0043] It is within the resin bore 40 that the resin components (A, B) first come into contact to mix. The resin mixture continues its journey along the bore, exiting the bolt at the distal end to cascade into the annular space between the rock bolt and the rock hole. In this annular space, the resin hardens to adhere to the bolt within the rock hole.

[0044] In the example represented in FIGS. 3 and 4, instead of the nozzle 10A engaging directly with the rock bolt, connection is achieved via an adapter 44. In this example, the rock bolt 12A is of a standard configuration, without a bespoke porting receptacle 42. The adapter provides the means for connecting the nozzle 10A to such a rock bolt. In describing this aspect, like features bear like designations.

[0045] At one end, the adapter 44 is diametrically reduced to provide a nose 46 which is sized to insert into the resin bore 40 from the proximal end 38 of the rock bolt. This leaves a portion 48 of the adaptor axially protruding from the rock bolt 12A, when engaged. At a protruding end of this portion, the adapter provides a receptacle 42. It is into this receptacle that the nozzle fits in sealing engagement as is illustrated in FIG. 4. The receptacle opens into a passage 50 which passes through the nose to an opening 52 at the tip of the nose.

[0046] In this example, the nozzle 10A delivers the components into a forward part of the receptacle 42, defining a reservoir 56, before moving through the passage 50, exiting the adapter at the opening 52.

[0047] The adapter 44 can be sacrificial, made from a cheap material such as a suitable plastic, in that should any resin harden within adapter, the adapter can be dispensed with and replaced with another.

[0048] FIG. 5 illustrates another embodiment of the nozzle 10B. In describing this embodiment, again like features bear like designations and where focus is made on the differences between this embodiment and the nozzle 10A.

[0049] The nozzle 10B is unlike nozzle 10A in that does not have a uniformly cylindrical body. Rather, it is more analogous to the adapter 44 in that the nozzle body 14 has a first cylindrical part 54 which, in use, projects from the rock bolt 12B, and a second cylindrical part 30. This latter part is diametrically much reduced, sized to insert into the resin bore 40 from the proximal end 38 of the rock bolt, as would the leading end portion 30 of the nozzle body of the nozzle 10A.

[0050] The seal 34, in this example, is not carried on the second cylindrical part 30, but within an annular recess set into the bore 40.

[0051] The first conduit 22 and the second conduit 24 extend parallel to one another in the axial direction, with the respective inlets (26A, 26B) recessed into the trailing end 18. The recessed inlets are adapted with threads to threadedly engage terminals of supply conduits of the resin components (A and B).

[0052] The conduits (22, 24) do not open directly onto the leading end 16. Instead, towards end 16, each conduit bends at a right angle to continue in opposed lateral directions towards the outer wall 20 surface where each conduit opens at a respective outlet (28A, 28B).

[0053] A section of the resin bore 40 of the rock bolt 12B has a reservoir 56 which is formed by an annular rebate in an inner wall of the bore. The positioning of the reservoir, along the bore, is coincident with the length of the second cylindrical part 30 of the nozzle 10B to position the outlets to release the resin components into the reservoir. It is within the reservoir that the components mix.

[0054] Like with the earlier embodiment, wherein the outlets are radially spaced (see FIG. 2), in this embodiment, the outlets too are spaced, however they are radially spaced. This spacing of the outlets provides space into which the respective resin components can exit before flowing around the reservoir 54, coming into contact approximately 90° from the outlets, before flowing up the bore. Again, the benefit is realised in that the mixed resin does not harden near the outlets, thus preventing occlusion.

[0055] In another embodiment, illustrated in FIG. 6, the nozzle 10C is similar in configuration to the nozzle 10B in having concentric conduits. However, nozzle 10C has an additional inlet, a flushing fluid or grease inlet 58 which, like inlet 28B, extends laterally, opening through the outer wall 20.

[0056] A planar dividing wall 60 (see FIG. 6B) extends between the inner wall 21 and the outer wall 20 in an axial direction, dividing the once circumscribing second conduit 24 into an arcuate resin portion 62 and a flushing portion 64.

[0057] The resin conduit opens at the inlet 26B and the outlet 26B. The flushing conduit opens at the grease inlet 58 and the outlet 66.

[0058] This nozzle 10C engages with, or connects to, a rock bolt 12 in much the same way as with the nozzle 10A i.e. either directly or indirectly using the adapter 44.