SE522205C2 - Method and equipment for loading pumpable bulk viscous explosive material into borehole use loading hose with controlled feed unit at one end with at least one outlet aperture with cross-section reduced in relation to that of borehole - Google Patents

Abstract

The method and equipment for loading pumpable bulk viscous explosive material into a borehole use a loading hose (3) with a controlled feed unit (1) at one end. The controlled feed unit has at least one radially orientated feed-out aperture (8) for discharge of a run of explosive material (16) with a reduced cross-sectional area in relation to that of the borehole. The controlled feed unit can also have at its free end an outlet (15) for discharge of explosive material up to the whole cross-section of the borehole. It can also have a device for selection of outlet and thereby the loading concentration.

Description

25 30 - -. «. . . -. <- 522 205 2 diameter which is smaller than the diameter of the borehole, preferably with a diameter similar to the diameter of the charge hose. Extending from the body 4 are guide means intended partly to keep the body oriented in the borehole and partly to, as will be described in more detail below, limit the spread of explosives discharged radially from the body.

In the present embodiment, the guide means are designed in the form of guide strips 5 or wings arranged with their extension parallel to the longitudinal axis of the borehole and radially extending out from the body 4 in order to be able to slide or support against the bore surface of the borehole with its free edge portion.

Guide strips 5 can, as shown in the embodiment according to fi g. I and 2, be four in number and synthetically distributed around the body without even division. They act in a stable manner to arrange the body 4 in the desired position in relation to the center axis of the borehole.

The guide means thus do not have to be the same or all be arranged in parallel in relation to the longitudinal axis of the borehole. The two main functions of the control lists, as stated above, control their design.

The position of the body 4 and the position of the guide strips 5 between which explosives are discharged thus indicate a definite cross-section, which the explosive strand formed therein will obtain. In an alternative simple embodiment, the body can be used without guide strips, whereby the cross section of the formed explosive string when radially discharged will correspond to the cross-sectional area of the borehole reduced by the cross-sectional area of the body.

I fi g. 3 shows the schematic and partially broken away body 4 according to fi g. 1 and 2 fi connected from the charging hose 3 and without guide means 5.

The body 4 comprises; a tubular housing 7 having a center axis which substantially coincides with the center axis at the free end of the charging hose 3; a connection 6 connecting the free end of the charging hose 3 to the housing 7, which is arranged at a rear end of the tube 7; and at the free end of the tube, at the front part of the tube, an axial outlet opening 15 is formed.

A cylindrical portion is arranged between the connection 6 and the axial outlet 15.

Within this cylinder portion, a radial outlet opening 8 with a defined area is arranged through the wall of the tubular housing 7. This can, as in the example shown, be elongated, or round, groove-shaped or have another shape.

In order to regulate the condition of the radial opening, closed or open, a piston member 9 is further arranged in the housing. The piston means 9 comprises a piston which, due to its position along the cylindrical portion, opens or closes the radial outlet opening. The piston is Càßocurnents and SeüinzshldMv DocumentsuAk fl l fl- l l \ l IOOIWOVWSI-'ÅPÜNPanQ-laddanmdninzxim 10 15 20 25 30 522 205 3. . ~. . . . -. is biased in a direction opposite to the destructive direction of the explosive och and has two spaced apart piston parts, a rear piston part 10 and a front piston part 11, the respective outer surface of which connects to the inner wall of the cylinder portion. The piston parts 10 and 11 have holes of a certain area, a certain number of holes 12 and 13 of a certain size. The holes 12, 13 extend through the respective piston part in the direction of destiny of the explosive fl parallel to the center axis of the body.

In the embodiment shown, the holes 12, 13 are arranged with even pitch along a circle on each piston part. Furthermore, the holes of the two piston parts can advantageously be displaced in relation to each other, i.e. they can tex. have center axes arranged parallel but spaced apart.

The piston is movable between a first rear end position, where the radial outlet opening 8 is located between the piston parts 10 and 11, and a second front end position where the rear piston part 10 closes said radial outlet opening 8.

By balancing the holes of the piston parts (eg number and diameter), the size of the radial outlet opening 8 and a pressure force fi against the piston, the viscous explosive at a relatively lower pressure can be forced through the holes 12 in the rear piston part 10, which is kept in its rear end position. by a pressure chalk provided by a spring 14, and out through the radial outlet opening 8 located between the piston parts 10 and 11. Furthermore, at a relatively higher supply pressure to the dosing means the detonator can overcome the pressure of the pressure spring 14 and move the piston to the front end position where the rear piston part 10 the radial outlet opening 8 and the explosive are able, by increasing the pressure in the space between the piston parts, to open also through the holes 13 of the front piston part 11 and to the front outlet opening 15.

In this way, it is possible with high precision to alternate between filling the borehole through the front outlet opening 15 in the same way as with a charging hose only or partially filling the borehole to the extent limited by the dosing member body 4 and, where applicable, the guide strips 5 depending on each side of the radial outlet opening 8.

It is also understood that the cross-section formed outside the radial outlet opening is limited partly by the locations of the guide strips delimiting the space around the body, and partly by the relative extent of the guide strips out of the body.

In an alternative embodiment, two or fl your outlet openings may be arranged radially through the cylinder portion of the body. They are then placed axially offset relative to each other so that the piston will open them in different pressure intervals. They are further separated from each other in C: \ Documen1a and SettinwsVldMv Dncumerns \ Akt \ 1 0-1 l \ 1 l00390 \ 0O-8Fï \ PrimPans-laddanmdninz.dne ann nu. n. nn nn n. a v u n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n. n. ß n n n n n n n n n n n n n n n. n n nn 4 direction around the body to open towards different spaces delimiting by control means which then preferably have different sizes or which can be combined into different sizes.

In a further embodiment the radial outlet openings are two and so arranged that the piston in the rear end position (relatively lower pressure range) opens towards a first limited space, in an intermediate position (in an intermediate pressure range) a further radial outlet opening opens allowing discharge of explosive to further a limited space around the body and in the front end position closes the two radial outlet openings and allows the explosive to genom through the axial outlet opening.

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Claims (9)

10 15 20 25 30 .se n. 522 205 5 Patent claim A method of charging viscous bulk explosive in a borehole, wherein the explosive is pumped out through the free end of a charging hose at the same time as the charging hose is pulled out of the borehole, characterized in that a dosing means having at least one radial outlet opening the bulk explosive to a reduced cross section in relation to the borehole cross section. 2. A method according to claim 1, characterized in that depending on the desired charge concentration, control means are selected for at least one outlet for limiting the extent of the explosive over the borehole cross section and that selection of outlet opening preferably takes place by selecting the pressure range with which the explosive is supplied. Device for loading viscous bulk explosive into a borehole (2), the explosive being pumped through a charge hose (3) into the borehole while pulling out the charge hose, characterized in that a dosing member (1) having at least one dosing member is connected to the free end of the charge hose radially oriented discharge opening (8) for discharge therethrough of an explosive strand (16) with a reduced cross-sectional area relative to the cross-section of the borehole. Device according to claim 3, characterized in that the dosing means (1) has a further outlet (15) at its free end for discharging explosive up to the entire cross-section of the borehole and in that the dosing means comprises means for selecting outlets (8, 15) and hence charge concentration. Device according to claim 3 or 4, characterized in that the dosing means (1) has a means by which the explosive is supplied to the dosing means for selecting the outlet opening. The device according to any one of the claims 3, characterized in that the dosing means (1) comprises a chamber which is connected by an inlet (6) at the rear end of the dosing means to the free end of the charging hose (3), that the chamber has an anterior end at an inlet (6) outlet opening (15), that the chamber between the inlet and the other outlet has a cylindrical portion, that within the cylinder portion of the carriage a radially directed outlet opening (8) is arranged through the wall of the carriage, that in the cylinder portion a means for regulating the radial outlet opening is arranged. Device according to claim 6, characterized in that the means for regulating the condition of the radial outlet opening comprises a piston means (9) capable of opening the radial outlet opening (8) in a lower pressure range and closing the radial outlet opening (8 in a higher pressure range) ) and allow the fl fate of explosives through the front outlet opening (1 S). C: \ Documents and SetiinmhldMv Thcumeittskßikñl 0-1 l \ l l00390 \ 00-SF '. \ PrimPms-laddmmdninv.doc. . ~. aa 10 15 20 li "'522 205 6» uu - The device according to any one of claims 3-7, characterized in that the dosing means at at least one of the outlet openings (8) has guide means (5) limiting the spread of the discharged explosive (16) in the cross section of the borehole (2). Device according to one of Claims 7 to 8, characterized in that the piston means comprises a piston (9) which, due to its position outside the cylindrical portion, opens or closes the radial opening in that the piston (9) is tapered (14) in a direction of the detonator fl, that the piston (9) has two spaced apart piston parts, a rear piston part (10) and a front piston part (11), the respective jacket surface of which connects to the wall of the cylinder portion, that the piston parts (10, 11) have a certain number holes (12, 13) of fixed size extending through the piston parts (10, 11) forming thereby fl destructive passages for the explosive, that the piston (9) is movable between a first rear end position with the radial outlet opening (8) between the piston parts (10, 11) and a second front end position where the rear piston part (10) closes said radial outlet opening (8), wherein the explosive at a relatively lower pressure is able to fl bleed through the holes (12) in the rear piston part (10), which is held in place t rear end position of a pressure spring (14), and out through the radial outlet opening (8) between the piston parts and the explosive at a relatively higher pressure overcomes the pressure ridge of the spring (14) and moves the piston to the front end position closing the radial outlet opening (8) and the explosive is able to da bleed even through the hole (13) of the front piston part and to the front outlet (15). ------------------- Cñßocuments and SettinzskldMv Dricummts \ Al n «n. U