PL72631B1 - Ballast tamping apparatus[us3608496a] - Google Patents

Abstract

1276163 Railway track packing machines F PLASSER 11 June 1969 [11 June 1968 25 Feb 1969 29674/69 Heading E1G The ballast in a crib on one side of a sleeper 9 is tamped by a ballast-penetrating tool 7 and simultaneously the ballast in a crib on the other side of the sleeper is compacted by a surface-compacting tool 3. Several such tools may be arranged laterally of the track. There may be two penetrating tools 7 one either side of the tool 3. The tools may be mounted with compression springs 5. The action of the tools is preferably vibratory. Hydraulic or mechanical drive may be provided. The machine on which the tools are mounted may be provided with automatic levelling device and track lifting tools. The surface contact of the compactor may have a flat surface or may be provided with small projections. [GB1276163A]

Description

The method of compacting the substrate with a track ballast and a device for using the method. methods are usually thickened with the use of vibrating rammers, embedded in a layer of ballast, which rammers subject the rammers in pairs in a counter-rotating motion under a given base to pressure and have flat tamping plates placed in the lower ends of tampers. The trajectory of the tamping devices is deepened also on the right and on the left side of the sleeper and makes a tangential motion relative to each other. This horizontal tangential movement of the vibrating tampers, taking place under a certain pressure, is the actual tamping process. However, the closing pressure must not exceed a certain value, because otherwise the view of the resulting track component begins to float along with the floor. the sleepers also the space between the sleepers. Thickeners, acting on the principle of unbalance, applied to the upper surface of the layer by means of a bottom plate or another device, are used in maintenance, especially to concentrate the aggregate in the interconductive spaces, in the vicinity of the interconnected spaces on the sides of Warsaw. This is generally done by pressing the vibrating plates of the thickener or the punches against the interplanar space that is to be compacted. Generally, they are produced by means of exciters operating on the principle of unbalance. The collapse of successive interstitial spaces, however, has the disadvantage that, due to the compaction of these spaces, the previously tamped sleepers are loosened again, which is the cause of new track defects. . Recently, machines have been constructed, additionally equipped in addition to the normal tamping devices with compaction devices, located behind the jacking devices, at the rear of the machine. Machines of this kind are, however, structurally very expensive and require a second man to operate them. Compaction devices also have to be adjustable in the longitudinal direction of the tamping devices because the machine has to be adapted to each sleeper section. is different in particular bases, for example in the area of rail joints, 7263172631 which often happens then, then the work is much more difficult, because the constant exposure of the gap between the compaction devices and the tamping devices causes a serious loss of time. the layers, and in particular the compaction depth, carried out by means of jamming devices known to date, is not always completely sufficient. The individual barrels of crumbs are to a greater or lesser extent fixed by the bottom plates of the compaction devices, the top surface of the crumble layer is placed on top of it, as a result of which horizontal movement cannot be formed, and it may move generally only in the horizontal direction. that the individual pieces of the ballast are relatively large and of about the same size, while the vibration distance is far too small for this size. Consequently, this method of compaction does not guarantee the correct, possibly most stable, The aim of the invention is to develop both a method and a device for compacting the layers of ballast, making it possible to concentrate the layer of both the fruit and between the crops with an optimally large depth of bearing. creating a dense layer of crumble to the tracks by tamping the crumb and a device for the application of this method, making it possible to compact the aggregate of the pavement or the tracks by means of (vibrating tamping devices, engaging in movable, adjustable transversely to the tamped underlaid, and by means of vibrating compaction devices, coated with a base plate or similar device, for example by means of pressure vibration exciters. especially that at the same time it is possible to raise at least one sub-base and to compact the adjacent space and inter-sub-base. Due to this simultaneous tamping of the underlayment and compaction of the interplanar spaces, when using the method according to the invention, the inconvenience mentioned in the introduction, resulting from (densification of the interplanet spaces, the features of which have already been subdued by another invention, will be eliminated). in the interstitial space, the vertical force is introduced, and in the process of creating at least one sub-base space, a horizontal force of an appropriate degree is introduced into the adjacent interstitial space, whereby the least one of these forces is the force (polishing force. Vibration is applied vertically, and then compaction takes place both in the area of the inter-sub-base space as well as under the sub-base. the end of the product He knows there is a force operating horizontally at a sufficient depth. This force, if it is to act accurately horizontally, must move horizontally or substantially horizontally with respect to the tangential motion (tangential motion). According to the invention, however, it may be formed by a horizontal component directed obliquely towards the underlay of force, the horizontal component having an effect on a good support of the underlay, and the vertical component of the obliquely directed force on the vertical compaction and redness under the underlay as well as in space. inter-foundation. The vertical force acting on the space between the sub-support should as much as possible create a tertiary pressure in relation to the horizontal force or the bird-like component of the force acting against the vertical force, as a result of which a good support of the substructure is produced when the forces are applied in both vertical vibrations. are sufficiently strong, then the vibrations caused also by the oscillation outside the inter-subplanet spaces, in connection with which the vibration of the horizontal force is not necessary. The same effect is achieved when a sufficiently large force component causes vibrations, as a result of which the beat in the interstitial state is made to vibrate. In this case, only one vertical static force is required to vertically compact the inter-substructure. The displacement of the ballast by turbulence and its compaction can be significantly increased, especially in the area under the sub-base, if both forces additionally generate vibrations. According to the invention, it is possible to choose a lower or higher frequency of vertical vibrations in relation to horizontal vibrations, so that it is possible to further improve the quality of the undercutting. according to the invention, and has the particular advantage that, for the simultaneous compaction and tamping, several devices are arranged on the machine frame transversely to its advancing movement, operating vertically up to at least 50 compaction of the primers and at least one screen of these devices. horizontal working devices tamping of sleepers, one of these groups of devices being connected to the unbalance excitators located under the elastic tension 55 of their own, or with eccentricities that cause the devices to vibrate. and namely through the horizontal component of the oblique force. According to one solution of the machine according to the invention, the tamping devices are arranged only on one side of the inter-bed space compacting devices. These ramming devices produce horizontal tangential motion of the wagon-72031 of the sleeper. If only one sleeper needs to be conquered, the inter-submarine compacting devices and the ramming devices are simultaneously lowered and tangential movement occurs. the springs vibrate under high self-tension to compact the interplanet space, then they cause a certain volume of the ballast into vertical vibrations, and the compaction occurs both in the interplanar space and under the cushion located between the tamping devices and the compaction devices The inter-bed space compacting devices provide a horizontal counter-pressure during the tangential movement of the tamping devices, as a result of which a good support for the sleeper is formed during the horizontal movement of the tamping devices. When tamping another undercoat, the intra-interlacing space in which the pellet of the previous tangential moss has loosened, is re-compacted, and so on. tangential motion tampers play a subordinate role. vibration of the ramming devices. If the tamping devices are excited to horizontal vibrations by the eccentric, then their forced effect on fattening is largely mitigated by the unbalance exciters of the interfacial compaction devices, which are self-directed and exerting influence on the fattening. Particularly good compaction quality, corresponding to the requirements of rail traffic, is obtained when the tamping devices, inclined towards the sleeper and making a tangential movement, are made to vibrate by the unbalance excitators under their own vertical tension. . Thanks to this, it is possible to set the direction of the turning of the vibrations and additionally - if it turns out to be desirable - to carry out a tangential movement. working time. These known machines carry out horizontal tangential movements during the tangent operation, with the two central pairs of tamping devices extending into only one inter-subclass space and therefore their construction is very complicated. Another disadvantage is that, as a result of the tangential movement, there are now two components, and instead of one. Due to the fact that the underlayments at a given moment are located in close proximity to each other, therefore, the tamping can occur practically at half the closing pressure, as a result of which the quality of the tamping suffers considerably. Difficulties also arise when tamping rail joints. - 10 tampers for compacting the inter-subshell space, and on their left and right side tamping devices for tangential movement to the device for compacting the sub-subplanet fines. Tamping devices are rigidly connected to 15 unbalance exciters * located under an elastic tension under the foundation the springs so that the oscillating systems with tampers vibrate vertically ^ If, for example, only the tangential movement of the tamping device is used, driven by an eccentric, then only one inter-subsurface space would be concentrated, which however in compared with known mares with double-head rails is already very advantageous. Due to vibrating unbalance exciters, tampers * operating on the already known torsion principle of vertical vibrations, the interplant space is, however, also compacted vertically, whereby a horizontal force component is used to produce the sleeper support. This type of tamping device does not perform the actual tangential motion influencing the tamping process, but rather serves to determine the direction of the tilt of the tamping devices and to advance the ballast against the heel support. simultaneous jamming of an adjacent ballast, there are digging devices for tamping on one side of the longitudinal pad, and on the other longitudinal side of this pad, near the intercostal space and above the width of this intercellular space - On the protruding part of this undercoat there are devices for thickening, applied to the upper surface of the layer by means of bottom plates or other similar devices. This type of device solution according to the invention (guarantees not only wide and deep, but bardizo the permanent compaction of the whole ballast, which is located in terms of one foundation, mainly due to the fact that the solution of conquering the foundation with simultaneous infiltration of the neighborhood of this foundation is very advantageous for the superimposition of force components acting on the layer (clump. The simultaneous operation of the two thickening devices is of decisive importance for the invention. ¬ for horizontal vibration and for a sliding action on the strike. This device has a flat shape and a more vertical - in the direction of the horizontal vibration - a travel surface. With this type of device it is possible to make the ballast vibrate horizontally, while at the same time taking the ball into the middle of the plate of the clogging device resting on it. vertical curves of vibration so that the compaction covers not only a great depth, but also large areas of the layer. . In any case, it is preferable to form the bottom plate projecting downwardly and serving for exerting a displacing action on the ballast in the form of a broken, shovel-shaped, trapezoidal, or-hemisphere. Sew if, in accordance with the previous proposal, pressure devices, for example pressure springs, for exerting an elastic pressure and an additional pressure component, are placed on the bedplate. Such flexible pressure devices accentuate the kinetic energy of the oscillating system upwards, so that this energy, when the oscillating system moves downwards, in addition to the centrifugal forces of this system, influences the carbonace in the layer. If, within the framework of the invention, such flexible devices for generating pressure are arranged in such a way that its action - for example due to its diagonal position - also extends to the horizontal components, then they also cooperate additionally with directed horizontal vibrations, (Proposition according to of the present invention, consisting in the padding of one sub-base by means of deep, floating and vibrating tamping devices and the adjacent interplanar space by means of compacting devices applied to the upper surface of the orange layer and located on its bottom plate the excitation of vibrations can also lead to the use of this type of method, in which, according to a further feature of the invention, the concentration of the ballast, which is within the range of one substrate, takes place by means of vibrations directed transversely to the axis of the track, both by means of devices for bumping, digging into the hums in space interplanet, located in front of the sub-base, as well as simultaneously with the use of a compaction device applied to the upper surface of the layer in front of the base of the sub-base, and with the use of a compacting device, placed on the intercostal space behind the sub-base. When it is in the concentration range, it then performs a spatial oscillating motion, with the beaten vibrating both vertically and horizontally, and in any case vertically to the axis of the track. As a result of the horizontal movement of the penetrating tamping devices, the beat within the tamping range is also induced to vibrate horizontally in the direction of the track axis. If now this strand, set in an invasive oscillation, is subjected to a vertically directed elastic pressure as far as possible, then each component is set into a stable position much more reliably than is the case in this compaction system, which it consists in the operation of devices operating in only one direction. Due to the spatial stability of the ballast components, the layer becomes able to flexibly receive both vertical and horizontal forces directed both parallel and perpendicularly. Due to this, the durability of such a layer is significantly improved, above all, when it is significantly loaded by the movement of trains. invention. Figures 1 and 2 show this machine with compaction devices, on one side of which are placed tampers, vibrated by eccentrics or unbalance exciters, in side view, and Fig. 3 - the machine, in which tampers are placed on both sides of the tampers in a wild to the side. 4 shows instead a mobile tamping-leveling machine equipped with the compacting devices according to the invention; Fig. 5 is a side elevational view according to Fig. 4, however, only the compaction devices and their range of operation are shown schematically, Figs. 6 and 7 show the compaction devices in a side view, and Fig. 8 - two varieties of details of these compaction devices. On the dam 1, the machines according to Fig. 1 are positioned transversely to the advance movement of the machine, marked by the arrow 2 of the device 3 for the compaction of the interplanet space 4, which, for vertical vibration, are rigidly connected with the exciter of the rivet name 6 based on frame 1 with 45 indirect connection of springs 5. Looking in the direction of movement, in front of each jamming device 3 a tamping device 7 is set, which during the thickening of the key layer enters the inter-bed space 8, 50 placed in front of the spaces between the pads 4 or the pad 9 lies between the devices 3 and 7. The tangential movement of the tamping device 7 to the ground 9 is influenced by the eccentric 10, which rotates the device around the axis 11. 55 In the machine, according to Fig. 2, the compaction device of the inter-bed space 3 are constructed identically as in the machine shown in Fig. 1 and pass the unbalance exciters 6 and the tines 5. The tamping devices 12 are 60 here, however, inclined obliquely with respect to the underlay 9 and are set to elastic vibrations by the unbalance exciters 13, based on the frame 14 of the machine by means of springs 15. The tangential movement of the devices 12 is influenced by the hydraulic cylinders 16 here. 65 numerous, articulated to the guide frame 25 3572631 and 17 to the unbalance exciters 13 and to the frame 14 of the machine. it is possible to simultaneously compact the space between the sleepers 4 and create supports for the supports 9 and 9 '. In this machine, on both sides of the compaction devices 3, 6a inclined obliquely with respect to the supports 9 and 9', the tampers 12 and 12 'vibrating also flexibly under the action of the exciters of unbalance 13. The tangential movement takes place here thanks to cylinders 18, articulated with the guide frames and from 17 devices for tapping a 12 and 12 '. (The tangential movement of the ramming devices 12 and 12' may also be influenced by the steering mechanisms instead of the cylinders 18. Fig. 4 shows the tamping-leveling machine with the support of the tamping device protruding beyond the track being processed. The frontal frame 21 of the undercarriage of this machine is equipped with a device 22, in a known manner, for raising the track into the correct position, under the supervision of a control device. The control of the correct positioning is here by means of the reference line 23, which, for example, can form a beam of light and which runs through the mules with the front position and the tyHnyn-L The front stand, still within the uncorrected range of the track, is here denoted by 24, and the rear station, located within the already corrected range of the track, - by 25. The chassis frame 21 is movable on the rails 26 of the track and has tamping devices 28 arranged along the guide 27, which are positioned vertically, the tampers of which are placed in the the lower part and penetrating the carbonaceous have flat tamping plates and are movable (staggered) diagonally with respect to the sleepers 29, as shown in the plan view in Fig. devices according to the invention operate, the bottom plates 31 of which, connected to the vertically adjustable support 30, have lead, tauezene-penetrating step 32, adapted to transmit additional horizontally directed dirgan. Those projecting downwardly and for imparting motion to the shifting projections 32 of the bottom plate 21 have a flat shape against the sliding surface, which is less oriented towards the horizontal vibration, and may be trapezoidal, broken or in the shape of a crimp. in the shape of a shovel. The penetrating devices 28 or the overlay devices 31 or both of these types 28 hub 31 may - as shown in the figure - be subjected to flexible self-pressure in order to improve their efficiency. As is apparent from the figure. 5, adjustable transversely to the sleepers 29 of the ramming device 28, can work arbitrarily in both adjacent interstate spaces, one of which is processed by the upper compaction devices. 5 - simultaneously with the use of devices for thickening or tamping devices in adjacent interplanar spaces, the compaction of the protruding part of the underlay is performed within the range of the protruding part of the underlay by means of one or several known devices for thickening the protruding parts of the protruding parts. on the top surface of the layers in the face area 33 of the foundation 29, extending over the width of the space and the sub-siphon, processed by the devices 31 for thickening the top surface, which constitute a bottom plate. It is also advantageous to arrange on the base plate indirectly acting pressure devices, for example compression springs 34, in order to exert additional vertical pressure; as it was depicted on i * ig. f and 7. 20 These figures further show that it is possible to arrange on one joint of the bottom plate 31 with protruding projections 32 downwardly, one or more rotating unbalances 36. The 25 ends of the projections 32, adapted to be transferred to the workpiece to be processed by force, moved the vibration via the SL bottom plate. The projections 32 'are made according to the variant shown on the left side, in the shape of a trapezoid, and the projections 32 "according to the variant shown | on the right, they have the shape of a triangle. primers "29 with horizontal vibration *. mew, coinciding with the length direction of the substructure, that is perpendicular to the track axis, and these devices are driven via a non-balance 35. Simultaneously with the application and activation of the device in the interfacial space, silt in the adjacent layer, that a Thus, in one or both of the adjoining inter-bed spaces and in front of the sleeper fronts it is compacted so that the common end of the undercoat is surrounded by the dense layer zones. An even more advantageous solution consists in the fact that the direction of the horizontal dirgan in the middle 50 at a given moment of the inter-subset is set perpendicular to the axis of the track, in one or both adjacent spaces, and with the use of recessing mobile devices for tamping - this direction is parallel to the track axis. However, the invention is not limited to any particular application, as there are still a number of possible uses within the scope of the invention. The details may also be changed and extended in accordance with the basic idea of the invention. * PL PL PL

Claims (2)

1. Claims 1. The method of compacting the substrate from the sandblast to the track 65 by tamping the sleepers and compaction of 11 strips between the sub-sub-base, characterized in that at least one primer is simultaneously conquered and the adjacent inter-sub-surface space is concentrated. £. The method according to p. The method of claim 1, characterized in that a vertical force is introduced into the inter-subplanet space at a suitable depth and a single Kazeisnie is introduced in order to create a support of the sub-bed to the adjacent inter-subplanar space - horizontal force, whereby at least one of these forces is the pulsating force . A method according to claim 1 or 2, characterized in that a force is applied diagonally downward with respect to the underlay, the horizontal component of which forms a horizontal force 41. from 1 to 3, characterized in that the particle size of the vertical and horizontal vibrations has a different size * J5l. from 1-4, characterized by the fact that they are placed on the frame (1) of a series of vertically operating devices (3) for compacting the inter-bed space (4), positioned transversely with respect to the advance movement of the machine, and at least on one side of these of the devices (3) are arranged horizontally operating devices <7) for tapping the undercoats, whereby at least one of these groups of devices is connected to the excitators of the Luib mibmoisrodes (10), which are under flexible self-pressure and making these devices (7) vibrate. 6. Device according to assumptions. from 1-4, characterized by the fact that they are placed on one of its longitudinal boitou, a device for tamping (28) of the base (29) and simultaneous jamming of the adjacent rivet layer and fixed on the other side of the longitudinal base (29) the compaction devices (91) located in the face area (33) of the sleeper (29) extending over the width of this space, the device (31) being a bottom plate (31) ). 7. Device according to claim 6. The method of claim 6, characterized in that the bottom plate (31) of the compaction device applied to the upper surface of the interbedded space layer has downwardly projecting protrusions (32) for exerting a horizontal vibration and a sliding action, including protrusions ( 32) a flat magician about 15 perpendicular to the direction of this horizontal vibration of the sliding surface * | 8. A device according to claim 7, characterized in that it is provided with a device for generating a pressure acting on the bottom plate (31), for example with pressure springs (34) producing an elastic self-pressure. The method of compacting the substrate from the track ballast by means of the device according to claim 5-8, characterized by the fact that the concentration of the crumbs in the field of one sleeper is carried out both by means of crushing devices (7), penetrating the ballast in the inter-subclass space (4), preceding the subclass (29 ) in the direction of vibration perpendicular to the undercoat, as well as by means of a compacting device (3) applied to the upper surface of the layer in front of the undercoat (29) and by means of a compacting device, placed on the adjacent inter-subsubslable space, dem, with vibrations directed transversely to the track axis. 35KI. 19a, 27/16 72631 MKP EOlb 27/16, JJ Fig. 2. Fig. 3KI. 19a, 27/16 72631 MKP EOlb 27/16 Fig. 5 JJ 'Ur_ 29 3F 03 Jz I ,, I 33 Fig. 6 Fig. 6 J2' v ^ Jt? * Print. Techn. Bytom - Zam. 274 - circulation 100 + 20 copies Price PLN 10 PL PL PL