Leading and adjusting device for working body of machine for drilling and closing tapping holes shaf

专利摘要:
A mechanism for guiding and positioning a workpiece of a machine for drilling or plugging a tap hole of a shaft furnace, the mechanism comprising a main pivot, a support arm which is rotatably mounted at one end on the main pivot, an intermediate arm having one end thereof pivotally fitted by an auxiliary pivot to the free end of the support arm, the auxiliary pivot being inclined with respect to the main pivot, a workpiece holding bar rotatably and adjustably mounted to the other end of the intermediate arm, said workpiece holding bar capable of having a workpiece mounted thereon, a guide rod pivotally mounted at one end to the intermediate arm and pivotally mounted at the other end to a fixed point in the vicinity of the main pivot, and a drive mechanism serving to pivot the workpiece and the support arm about the main pivot from a retracted position to an operational position, the workpiece being in angular adjustment with respect to the tap hole, the adjustment being performed by rotating the workpiece holding bar with respect to the intermediate arm. In one embodiment of the invention the inclination of the auxiliary pivot with respect to the main pivot is provided for by a fixed bend in the support arm. In another embodiment of the invention, the inclination of the auxiliary pivot is provided for by a support arm having two segments, one segment being hinged and angularly adjustable with respect to the other segment.
公开号:SU856391A3
申请号:SU782669904
申请日:1978-10-04
公开日:1981-08-15
发明作者:Улвелинг Леон；Маййе Пьер；Мец Жан
申请人:Поль Вюрт С.А. (Фирма)；
IPC主号:

专利说明:

The invention relates to guides and mounting devices for the working body of a machine for drilling or driving exhaust openings for shaft furnaces.
A drilling or drilling machine is known, the inclination of which in the working position causes the main pivot bearing to be set obliquely in the direction of the furnace. At an angle approximately equal to the angle of inclination of the outlet, because of which the drilling or driving machine moves in an obliquely lying plane, passing through the elongated axis of the outlet ti.
The closest to the proposed technical essence and the achieved result is a device for driving the working body of the machine for drilling or driving the outlet openings of shaft furnaces, containing a carriage of the working body mounted on one end of the manipulator consisting of a bracket and a guide rod the other end of the manipulator is hinged in the main bearing I.
However, if in this device the conditions imposed on the trajectory and the working position are fulfilled, then the working body in the quiescent position takes up or tilted position, as a result of which the combination of the drilling and drilling machine becomes impossible, or if the conditions for the quiescent position are met in which this is not possible at all, the tool should move over the side restrictive walls of the discharge chute.
The aim of the invention is to increase the reliability and improve the service conditions of the device.
The goal is achieved by the fact that the device for driving the working body of the machine for drilling or blocking the outlet openings of shaft furnaces contains a carriage of the working body mounted on one end of the manipulator consisting of the bracket and the direction of the rod, and the other end of the manipulator is hinged in the main bearing, equipped with a rocker arm articulated with a bracket, a guide rod with a carriage of the working body, and
the articulation of the rocker arm with the bracket is made in the form of an additional rotary bearing mounted obliquely to the main bearing, and the articulation of the rocker arm with the carriage of the working body is made rigid with the possibility of rotating the carriage around the longitudinal axis of the rocker arm.
The additional bearing is mounted obliquely in a plane passing through the axis of the main liner and the longitudinal axis of the rocker arm.
Additional bearing (option mounted obliquely in a plane perpendicular to the plane passing through the axis of the main bearing and the longitudinal axis of the rocker arm.
The upper part of the pivot bracket is set obliquely away from the main pivot bearing.
The upper part of the swivel bracket is set obliquely in the direction of the main rotary base. The bracket is made with a cranked bend. The bracket is provided with a hinge, the axis of which is installed perpendicular to the axis of the additional slewing bearing.
FIG. 1 shows the proposed guide and mounting device, a horizontal projection in a resting position; in fig. 2 - the same in the working area; FIG. 3 shows the end of the bracket with an additional pivot bearing in the direction of the axis of the mast; in fig. 4 - the same, with two different angles of inclination; in fig. 5 and 6 are the positions corresponding to FIG. 3 and 4, in which a bracket means a hinge that allows the additional slewing bearing to be tilted ;, in FIG. 7 and 8 are a view, respectively, A and B in FIG. 2, and a diagram of the inclination of the mast corresponding to the inclination of the additional bearing in FIG. 3 and 5; in fig. 9 and 10 are the positions f corresponding to FIG. and 8, the nose is tilted by an additional bearing, corresponding to FIG. 4 and b; in fig. 11 and 12 are a diagram of the trajectory of movement of the tip of the working op, ghana, front and top view; in fig. 13 and 14 — front and top trajectory of the tip of the working member; in fig. 15 and 16 are schematic diagrams of variants similar to FIG. 7 and 8 for an additional slewing bearing that can be tilted in two directions.
The device consists of a shaft furnace wall 1 in which there is an outlet opening 2 drilled with a drilling machine 3. In the extension of the outlet opening 2 in the base of the outlet chamber there is an outlet groove 4 bounded laterally by vertical or inclined walls 5 and 6. Drilling machine
contains a carriage 7 with a working body, a boring bar 8, which in this case is mounted on one end of a bracket 9, the other end of which is mounted in a main pivot bearing 10, the latter being installed in a support 11 on which a hydraulic cylinder 12 is located for turning a bracket 9 around bearing 10 between both positions (see Figures 1 and 2). In addition, bracket 9 has
About the direction of the cadet rod 13 for kinematic control of the gun 7. The gun 7 is mounted on the intermediate beam 14, which for its part is pivotally connected to the end of the bracket
5 9 and the guide rod 13. The fastening of the mast 7 to the intermediate arm 14 is made rigid, but with the possibility of breaking it in a known manner, thanks to the fact that
Q mount, for example from the front side, has a gear flanges. The device has a longitudinal axis C of the bracket 9, the axis D of the intermediate rocker 14 passes through the midpoint of the adjustable attachment 15 V
 between the intermediate beam 14 and the carriage 7, and the longitudinal axis F of the mast 7 passes along the extension of the axis of the boring bar 8 in the working position, and along the extension of the axis O of the outlet opening 2.
Guide bar 13 and bracket
9 can be located both parallel to each other and inclined
They are relative to each other, and thus can be a pseudo-parallelogra instead of a parallelogram, or a plane lever mechanism. In the working position, the bracket 9 does not necessarily have to be positioned relative to the discharge chute 4 vertically in a resting position, the bracket 9 also need not necessarily be parallel to the discharge chute 4.; As these different positions,
5 and the angle of rotation between the non-working and operating positions depend on the specific conditions of this installation. The device works as follows (Fig. 1 and 2).
0 The main pivot bearing 10 has the ability to completely deflect in a plane perpendicular to the axis O of the outlet, namely, the upper part of the discharge channel. Main pivot bearing axis
10can, in addition, have some inclination in the second direction. In this case, the bearing deflects either in the direction of the furnace or in the opposite direction. The choice and magnitude of these inclinations in each case depends on the trajectory of movement performed by the bracket 9
gun carriage 7 and boring bar 8. But a special case of the vertical position of the main bearing is also possible.
A swivel between the intermediate arm 14 and the bracket; No. 9 is carried out by means of additional rotation of the bearing 16 (Fig. 3 and 4). According to another basic feature, this rotary bearing 16, and thus the intermediate box 14 "carriage 7 and boring bar 8, is inclined relative to the bracket 9. According to the first Optionally, the additional bearing 16 tilts in only one direction (FIGS. 3 and 4) in the plane bounded by the axis of the bracket 9 and the axis of the main rotary bearing a 10,
When the drilling machine moves the honey through the hydraulic cylinder 12. Both positions shown in Figures 1 and 2 rotate the mast 7 and the intermediate beam 14 around the additional rotational bearing 16 all the way around the main bearing 10. This last rotation is ensured by the presence of the guide rod 13. Due to this additional rotation, the carriage 7 is brought from a position perpendicular to the bracket 9 to the rest position and vice versa. It should be noted that the one shown in FIG. 1 and 2, the alignment of the carriage relative to the bracket by adjusting the length of the guide rod 13 can be changed, and this length adjustment can be done simply by means of a tensioning device 17. Due to the inclination of the main bearing 10 and, in particular, due to another on: the clone of the additional bearing 16 the carriage 7 is rotated around its pivotal bearing 16 in an inclined plane around this movable bearing, if it is taken as a point of reference, while the entire system rotates we vokru rigidly mounted main bearing 10 is effected in the other inclined plane. The imposition of these movements creates a rather complex trajectory for the mast 7 and the front part of the boring bar 8, the coordinates of this trajectory of movement are determined by the magnitude and sign of the direction of tilt of both bearings U and 16 and, if necessary, by the length of the guide rod 13.
Due to the main bearing 10 and, in particular, due to another tilting of the additional bearing 16, the carriage 7 rotates around its rotary bearing 16 in an inclined plane around this movable bearing / if it is taken as the reference point, while the whole system rotates around a rigid fixed head bearing 10 is carried out in
another inclined plane. The overlap of these movements creates a rather complex trajectory for the mast 7 and the front of the boring bar 8, the coordinates of this trajectory of movement are determined by the magnitude and sign of the direction of tilt of both bearings 10 and 16 and, if necessary, the length of the guide rod 13.
For better control over the parameters of the boring bar 8, it is mainly maintained in the axial position relative to the intermediate beam 14, i.e. so that the F and O axes of these two parts intersect at one point. For this, it is necessary (Fig. 3 and 4) either to provide an intermediate piece 18 between the carriage 7 and the intermediate beam 14, or to give the latter an appropriate form for the carriage 7 to move upwards relative to the axis.
A simple means for providing additional tilting of an additional swivel bearing 16 is sotoit (fig. 3 and 4), which is provided in bracket 9 with buckling. It follows from FIG. 3 that such a bend has an angle of inclination between the axis O of the intermediate rocker 14 and the axis C of the bracket 9. Depending on the site conditions, due to this bend in the bracket 9, the carriage 7 can be lowered (FIG. 3) or raised (FIG. four). FIG. 5 and 6, design variants are shown for achieving the desired position of the mast according to FIG. 3 and 4, due to the fact that a hinge 19 is provided on the bracket 9, as a result of which the axis D is given variable bending about the axis C. The axis of this hinge 19 extends perpendicular to the axis of the rotary bearing 16, so that the bolt 19 together with the bearing 16 represents a kind of gimbal mechanism. The establishment of a given angle of inflection hinge. 19 can be produced by a known means, the simplest solution being that a tension nut 20 is used. Any angle between the angle of incidence d (Fig. 3) and the angle of elevation p (fig. 6) can be adjusted by manually setting the tension nut. You can replace the tension nut 20 with another adjustment means, such as, for example, a hydraulic cylinder.
Without bending in the bracket 9, i.e. in the parallel position of the additional slewing bearing 16 and the main bearing 10, the axis F would be constantly in the same plane as the axis of the hinge 9, or in a plane parallel to it. If we assume that the main turning bearing 10 deviates in such a way that the yoke 14 in the resting position will be
to have a horizontal position, then both axes F and C (Fig.7) coincide in one horizontal line.
If, due to the bend in the arm 9 in the rest position (Fig. 1), the axis is inclined relative to the horizontal, in fastener II; nothing changes (FIG. 7). The axis E of the additional bearing 16 thus forms an angle cL with the vertical (FIGS. 3 and 5). In this case, the axis F also forms an angle ot with the horizontal, and the tip of the boring bar 8 will be directed upwards. But due to the fact that the fastener 15 can be adjusted, the carriage can again be brought into horizontal position by turning it at an angle ei around the axis O of the intermediate rocker 14, the new predetermined orientation of the napkin and the boring bar (Fig. 7) is represented by a thick solid line.
When moving the carriage from the non-working to the working position (Fig. 2), the influence of the inclination of the additional bearing 16 on the inclination of the carriage 7 is gradually reduced in order to disappear completely in position (see Fig. 2).
The axis E of the additional bearing 16 (Fig. 8) coincides with the vertical of Exp. This is because the additional bearing 16 tilts only in one direction, namely, in the plane formed by the axis of the main bearing 10 and the vertical axis C of the bracket 9 (Fig. 8 ). Therefore, the inclination of the carriage 7 in its working position is determined only by the installation of the adjustable fastening 15. As this adjustable fastening as described above, was set at an angle ct | the carriage in its working position also has an inclination relative to the horizontal (Fig. 8, a fat solid line). As a consequence, the outlet is drilled at an angle relative to the horizontal.
In the resting position, the inclination of the additional bearing 16 and the adjustment by fastening to the inclination of the carriage are opposite, and the carriage accepts the inclination corresponding to the difference of these effects, whereas in the working position the inclination of the inclination of the additional bearing 16 to the inclination of the carriage disappears and equal to the angle of alignment installed in the fastener 15. Thus, this guide and mounting device allows the drilling machine to be driven from the lower and horizontal position depending on the. need for a large position, or a smaller inclination, and vice versa. ;
FIG. Figures 11 and 12 show two curves, respectively, a front view (Fig. 11) and a top view (Fig. 12) of the trajectory of the tip of the boring bar 8, when it moves between positions, shown n in fig. 1 and 2 when tilting an additional bearing 16 ° C (.Fig. 3,5,7 and 8). The curve in FIG. 11 means that if the machine is moved back from working to non-working, the boring bar quickly rises at an angle of at least oi, from the chute 4. The maximum of the motion curve almost reaches the place where the boring bar moves away from the discharge chute 4 above | bounding wall 6. In this case, the curve passes more hollow, up to the rest position. A curve (Fig. 12) means that when the boring bar 8 is inside the discharge chute 4, i.e. when the curve oi (Fig. 11) passes under the upper edge of the side wall 6, the curve b passes in the central zone of the discharge chute 4. Therefore, there is no danger that the boring bar 8 will hit one of the side walls or the discharge chute 4.
Similar reasoning is true in the case of FIG. 7 and 8, corresponding to the design of FIG. 4 or 6, in which the bend of the bracket 9 runs in the opposite direction. The axis E of the additional bearing in the rest position (Fig. 1) and in the direction of the arrow A forms an angle | with vertical (Fig.9). However, despite the horizontal position of the mast in this resting position, the adjustable fastener 15 must be corrected by angle b in order to eliminate the effect of inclination of the E-axis (Fig. 9).

权利要求:
Claims (7)
[1]
Moving the machine from the quiescent position to the working position eliminates the influence of the inclination of the additional bearing, with the result that in the working position the carriage has an inclination angle (b corresponding to the angle of alignment on the mount 15. In Fig.10, this is indicated by a thick solid line representing the carriage. Thus , in Fig. 8 and 10 it is shown that with the same initial conditions, i.e. with the same inclination of the main bearing 10 and the same position as the rest of the bracket 9, it is possible either to drill the exhaust hole 2 descending into the inner space furnace, or hole 2, ascending from outside to inside, depending on which slope the additional bearing has (Fig. 3 and 4). The inclination of the additional bearing 16 (Fig. 5 and 6J is adjustable. In an embodiment (Fig. 5 and 6) in case of need it is possible by simply adjusting the nut 21 and using the same machine to drill out the safety holes at a higher level, which until now was possible only manually and with greater risk for the operating personnel. Curves of these (Fig. 13 and 14) designate the paths of the tip of the boring bar 8 p and it is moved between the two positions, sootvetstvuk Dimi 1 and 2, and for configurations corresponding to FIG. 9 and 10. At the same time, the curve is particularly interesting, since it follows that, despite the angle of inclination in the working position of the mast and its almost horizontal position in an inoperative state, the boring bar 8 passes almost a horizontal trajectory. This means that due to the combined effect of the turns around the inclined bearings 10 and 16, the rear part of the mast moves up or down when it approaches the working position, if the carriage is moved back to the rest position. It should be noted that the movement described above, in particular with respect to FIG. 7-14, is valid only under perfectly defined initial conditions, such as those depicted in FIG. 1 and 2, with a perfectly determined inclination of the main bearing 10. If one or another of these conditions changes, this affects both the trajectory of the movement and the inclination of the mast in the working position. For example, there may be a case when, with a different inclination of the main bearing 10, it becomes necessary to provide a bend arm 9 (Fig. 4} in order to provide a working position, respectively, or a bend arm according to FIG. 3, in order to bring the carriage to the working position (according to Fig. 10). If these different parameters are not yet sufficient for the machine to choose the optimal mode in difficult conditions, it is possible to ensure the inclination of the additional bearing 16 in the second plane torsional to flat planes (Fig. 3 and 4), that is, in a plane perpendicular to the plane of Figs. 3 and 4. In Figs 15 and 16, this possibility is presented in the form of a diagram. figures, the tilt of the E1 axis of the supplementary bearing 16 remains in the first direction, as described above, while the second tilt in the second perpendicular to the first plane at an angle p is additional.If we now give the same arguments that were put forward with respect to the previous figures , and compare with each other, FIGS. 1 and 15 on one side, and FIG. 2 and 16, on the other hand, it can be argued that the angle j has no effect on the slope of the carriage 7 in its rest position according to FIG. 1 and 15, since the angle f corresponds to the inclination of the axis E in a plane perpendicular to the plane of FIG. Due to the additional tilting of the axis E, the carriage 7 stacks deeper than the axis C of the bracket 9, and it remains parallel to it. The magnitude of this distance (Fig. 15) between the axis C and the gun 7 depends on the magnitude of the angle p. When the drilling machine is rotated from the rest position (Fig. 1) to its working position (Fig. 2), the impact of the angle f on the carriage inclination 7 is gradually reduced in order to finally disappear (Fig. 2). On the other hand, an additional bearing 16 tilts in the second direction from the rest position, having an increasing effect, which is in the working position (FIG. 2). becomes maximum (Figure 16). The axis E of the additional bearing forms an angle with the vertical. If the additional tilting of the additional bearing 16 occurs in the direction shown in FIG. 16, its effect is added to the effects of the angle d on the slope of the mast in its working position, with the result that in this case the slope is + f. It follows that this additional tilt of the additional bearing can be provided, for example, if the outlets are to be drilled with an extremely large lift and the advantages of the Lower horizontal rest position of the machine should be preserved. It is also possible to make this second inclination of the additional bearing adjustable. It is also possible to tilt the additional bearing only in the second direction, i.e. make an angle d. equal to zero. The designer of such machines has a number of parameters in order to mount the machine so that it best meets the set conditions, in particular with regard to the movement trajectory, its rest position and working position. In addition, an already assembled machine can simply be installed and even adapted to unusual production conditions if it is equipped with a hinge corresponding to FIGS. 5 and 6, in particular, for drilling outlets at different levels. Claim 1. Guiding and mounting device for a working body of a machine for drilling or blocking outlet openings of shaft furnaces, containing a carriage of a working body mounted on one end of a manipulator consisting of a bracket and a guide rod, with the other end of a manipulator pivotally fixed in the main bearing, characterized in that, in order to increase reliability and improve service conditions, the device is provided with a rocker arm articulated with a bracket, a guide rod and a carriage Gana, wherein the rocker with the articulation bracket vypoljHeHo as an additional pivot bearing mounted obliquely to the main bearing, and articulated rocker with the working body is rigid gun carriage pivotable mast about the longitudinal axis of the rocker.
[2]
2. The device according to item 1, about the fact that the additional bearing is installed inclined in the plane passing through the axis of the main bearing and the longitudinal axis of the rocker arm,
[3]
3. The device is equipped with the fact that the additional bearing is installed inclined in a plane perpendicular to the plane passing through the axis of the main bearing and the longitudinal axis of the rocker arm.
[4]
4. The device according to claim 2, about the fact that the upper part of the swivel bracket is installed obliquely away from the main rotary bearing.
[5]
5. The device according to claim 2, about the fact that the upper part of the swivel bracket is installed obliquely in the direction of the main rotary bracket.
[6]
6. The device according to paragraphs. 2-5, that is, the bracket is made with a crook or bend.
[7]
7. The device according to paragraphs. 2-6, that is, the bracket is provided with a hinge, the axis of which is installed perpendicular to the axis of the additional slewing bearing. .
Sources of information taken into account in the examination
1. The patent of Germany 2704891, cl. From 21 to 7/14, 1972.
2.Patent of Luxembourg No. 78209, cl. From 21 to 7/14, 1972.
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引用文献:

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GB1174536A|1967-09-11|1969-12-17|Dango & Dienenthal Kg|Apparatus for Opening and Closing Tap Holes of Shaft Furnaces|

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LU82943A1|1980-11-17|1981-03-26|Wurth Anciens Ets Paul|GUIDE AND SUPPORT HEAD OF A DRILLING ROD OF THE CASTING HOLE OF A TANK OVEN AND DRILLER PROVIDED WITH SUCH A HEAD|

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LU83335A1|1981-05-05|1983-03-24|Wurth Paul Sa|DEVICE FOR CENTERING AND GUIDING A DRILLING ROD OF THE CASTING HOLE OF A TANK OVEN AND DRILLER PROVIDED WITH SUCH A DEVICE|

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LU83336A1|1981-05-05|1983-03-24|Wurth Paul Sa|DEVICE FOR CENTERING AND GUIDING A DRILLING ROD OF THE CASTING HOLE OF A TANK OVEN AND DRILLER PROVIDED WITH SUCH A DEVICE|

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LU84237A1|1982-06-29|1983-11-23|Arbed|DEVICE FOR CLOSING THE TAPPING HOLE OF A METALLURGICAL VESSEL|

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LU84711A1|1983-03-23|1983-11-23|Wurth Paul Sa|CLOSING MACHINE FOR SEALING CASTING HOLES OF TANK OVENS|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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LU79749A|LU79749A1|1978-06-01|1978-06-01|MECHANISM FOR GUIDING AND POSITIONING THE WORKING TOOL OF A DRILLING MACHINE OR CLOSING THE CASTING HOLE OF A TANK OVEN|

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