RU2375581C1 - Length-variable joint of suction pipe to dust channel - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention is related to mining industry, namely to devices for tunneling of underground bottomholes. Device comprises tunneling combine, stationary transportation accessory, transmission or bridge transporter arranged between them and installed with the possibility of movement on walker mechanism or frame, accordingly, and ventilation accessory. Ventilation accessory comprises suction pipe, immovable ventilation pipeline and length-variable joint of suction pipe with dust channel of ventilation accessory. Length-variable joint comprises helical ventilation pipe suspended on bearing cord. Bearing cord is stretched between two support parts of walker mechanism or frame, accordingly, displaced in the same direction and tunneling combine, and is directed by means of diverging rollers.

EFFECT: invention provides for reliable installation of ventilation pipe, excluding hogging under action of longitudinal loads.

10 cl, 6 dwg

Description

The invention relates to a variable length connection of a suction pipe with a dust channel of a ventilation device in an underground face with a transmission or, respectively, a bridge conveyor mounted between the stationary ventilation pipe and the tunneling machine, mounted for movement on a walking mechanism or, accordingly, a frame.

From DE 3147471 A1, a method and apparatus for continuously suspending a ventilation duct in a tunnel or underground face are known. In this known embodiment, a hanging cable is continuously supplied from a cable drive to an exhaust pipe leaving the drive, which is fixed above the continuous ventilation pipe on the roof of the formation of the mine to be ventilated. The ventilation pipe itself can be suspended on such a support cable by means of anchor elements, in this known embodiment, to compensate for different heights between the upper side of the ventilation pipe and the cable attachment points, a cable storage device can be provided in the form of a cable roller or a deflecting roller with the possibility of height adjustment and it can be energized by the spring. Such a device is stationary stretched in the face so that, based on such a device, in accordance with the accumulated length of the ventilation pipe and the accumulated length of the support cable, a certain section can be blocked. In mobile, towed and especially connected to a tunneling machine, it is necessary, as a rule, to continuously overlap only predetermined, substantially shorter sections, and with the known implementation due to the multitude of spring elements during shaking and strong vibrations of the machine, significant movements of the ventilation pipe can occur, in particular , in the direction of height and in the lateral direction.

DE 4310524 A1 shows and describes a buffer element for ventilation pipelines, which can be used in mining, respectively, in the construction of tunnels to create, in particular, between the longitudinally moving face of the combine harvester selective action and the fixed part of the ventilation pipe of a corresponding variable length connection . Such a ventilation duct can be connected to a combine harvester of selective action, while at the junction of the buffer elements, it is possible to carry out the corresponding suspension on the roof. Moreover, the buffer element contains a spiral ventilation pipe, and inside the spiral ventilation pipe tension springs are located to prevent the ventilation pipe from tipping over. By means of such devices, only relatively short sections can be overlapped with a variable length.

The basis of the invention is the task of creating a reliable laying of the ventilation pipe in the area between the tunneling machine and stationary transport device, which reliably excludes bending under the action of a longitudinal load with constant movement back and forth of the tunneling machine.

To solve this problem, the length-varying connection according to the invention consists, based on the execution of the above type, essentially that the connection comprises a spiral ventilation pipe suspended on a carrier cable, while the carrier cable is tensioned between two supporting parts of the walking device moving in the same direction, respectively, of the frame and the roadheader and is directed by at least two deflecting rollers. Due to the fact that the connection consists of several sections and contains a spiral ventilation pipe suspended on a carrier cable, it is possible to place such a spiral ventilation pipe in the substantially straight-ahead area of the section to be overlapped, while in any case it must be coordinated with the height of the position of the suction pipe and ventilation ducts fixed to the roof can be ensured by another short, in this case, bending section of the ventilation pipe water. This other section does not have to stretch or contract for a variable length connection so that in this case the risk of bending under the action of a longitudinal load is minimized, while rigid pipes can also be preferably used between the two sections. Thus, the possibility of a change in length is provided due to the straight-through portion of the spiral ventilation pipe, and therefore it is sufficient to lengthen the load-bearing cable only in this partial zone on a given displacement path. Such a support cable extended on a given path does not need to be pulled out from a spring-loaded drive, but it is possible, in particular, to reliably perceive jolting, pull with a precisely specified length between two support points, in this case, it is sufficient to pull the corresponding support cable between two in one direction by supporting sections of a walking mechanism or, respectively, of a frame and a roadheader or, respectively, connected to a roadheader part, and direct at least two deflecting rollers. In this case, the direction through at least two deflecting rollers ensures elongation in the same direction of the carrier cable in the area in which the suspension of the spiral ventilation pipe is necessary, while at the same time, respectively, the ends of the carrier cable can be fixedly fixed to accurately indicate the length of the carrier cable, which corresponds to the shift path of the roadheader. In general, it is also not required to be wrapped excessively long on the drum, which can be braked to feed, and to pull exactly the length between the movable support parts that corresponds to the displacement path taking into account the deviation. The precisely specified length of the support cable allows, naturally, a lighter controlled tension so that sagging of the rectilinear portion of the suspended spiral ventilation pipe can be effectively countered.

In this case, the execution is preferably carried out in such a way that the support parts moving in the same direction are formed by a support part connected to the tunneling part and having the form of a support slide for the transfer or, respectively, bridge conveyor and / or part of the subsequent downhole conveyor. In a particularly simple manner, at least one portion of the support cable may be formed by a cable tensioning member, or the portion of the support cable may be connected to the cable tensioning member.

Thus, the carrier cable, which can be tensioned on the frame of the movable bridge conveyor, deflected on stationary guide rollers on the frame of the subsequent transportation device, allows the spiral ventilation pipe to be lengthened exactly by the size that corresponds to the travel path of the bridge conveyor. This ensures reliable passage of the spiral ventilation pipe along the path of movement, for example, 5-6 m, without the need for a separate drive. Connection with an element of the bridge conveyor or, respectively, with a roadheader, as well as with the subsequent conveyor belt, provides a direct forced drive to supply the required length of the carrier cable.

In this case, a simpler implementation is such that the free end of the carrier cable is connected to the suction pipe connecting pipe connected to the cutting machine, while the carrier cable is preferably deflected by means of a first roller with a substantially perpendicular support axis of rotation near the connection of the spiral ventilation pipe to the fixed ventilation pipe from the axis of the connecting pipe or, respectively, the axis of the spiral ventilation pipe and is guided by other deflecting rollers in to the end of the frame adjacent to the tunneling machine, respectively, of the walking mechanism to the longitudinally shifted support of the transmission or, respectively, bridge conveyor or, accordingly, the subsequent drift conveyor and fixed on it. Such a deviation of the carrier cable from its essentially mid-position above the spiral ventilation pipe to the lateral position to return the cable to the opposite deflecting roller allows the protected direction of the cable in the frame or at the frame so that damage to the cable can be eliminated, while limiting the pulling of the spiral ventilation pipe by the substantially rectilinear section of the ventilation pipe provides particularly simple conditions for suspending and securing the ventilation pipe. In this case, the execution is preferably carried out in such a way that the deflecting rollers rest on the frame or on parts rigidly connected to the frame, the maximum extension length of the spiral ventilation pipe being greater than or equal to the distance between the longitudinally opposing deflecting rollers, and most preferably the maximum extension length of the spiral ventilation pipe greater than or equal to the displacement path of the transmission support or, respectively, the bridge conveyor on the frame or the corresponding who was walking frame path.

The corresponding rigid connection of the displacement path or, accordingly, the pulling movement with the bridge conveyor can be carried out in a simple way due to the fact that the end of the transfer or, respectively, bridge conveyor is rigidly connected to the connecting pipe for the spiral ventilation pipe.

In principle, an appropriate cable tension can be provided with a simple lock for pulling the cable. With an increasing length of the elongated spiral ventilation pipe and an increasing amount of deposited contaminants, it may be desirable to increase the tension accordingly, and it is preferably carried out so that one end of the carrier cable is connected to the support by at least one tension cylinder with limited tension. Such a limitation of the tension force by the tension cylinder can be carried out in a particularly simple way hydraulically or pneumatically.

Essentially straight-line passage of the variable along the length of the plot of the spiral ventilation pipe eliminates the tip of the ventilation pipe, which increases the safety in the face.

The following is a detailed explanation of the invention by way of example with reference to the drawings, where:

figure 1 shows a side view of the connection according to the invention between the ventilation pipe in the stationary partial zone of the bottom and the ventilation pipe in the area of the tunneling machine;

figure 2 shows an enlarged side view according to figure 1;

figure 3 shows an enlarged side view according to figure 1 on the transfer section between the tunneling machine and a stationary suction pipe or ventilation pipe;

figure 4 shows a top view of the image according to figure 3;

figure 5 shows a section along the line V-V in figure 4;

figure 6 schematically shows in perspective the deflecting elements or, respectively, deflecting rollers for the bearing cable is not shown in Fig.6 spiral ventilation pipe.

In Fig. 1, reference numeral 1 denotes a selective roadheader, the cutting heads or rolls 2 of which can be moved along the face surface 4 by means of the cantilever arm 3. Cut or chopped material is received by the loading ramp 5 and transferred to the conveyor, which is received by the loading ramp 5 and transmitted to a conveyor that transfers material to the rear end 6 of the roadheader through the pavement or, accordingly, the transfer conveyor 7 to the conveyor fixedly in the drift e device. Near the surface of the face through the suction pipe 8 and the rigid tubular section 9, the suction material, namely dust and air, is removed and flows through the spiral ventilation pipe 10, which serves only to bridge the height difference, into another, rigid tubular section 11 of the ventilation pipe to which a variable length section is connected in the form of a spiral ventilation pipe 12, which is stretched between this rigid section 11 and the frame 13. In the plan view in FIG. 2, the same structural parts are denoted by the same position E, shows an apparatus wherein the transfer conveyor 7 on the support 14 which in turn is mounted on shifts to the longitudinal direction of the structural part of the transfer slide.

The embodiment shown in FIGS. 1 and 2 is explained using the images in FIGS. 3 and 4, while FIGS. 3 and 4 show a carrier cable 15, on which a variable-length spiral ventilation pipe 12 can be suspended for a corresponding elongated length. In this case, reference numeral 26 denotes a tension lock, and reference numeral 16 denotes a corresponding tension cylinder to maintain the corresponding desired cable tension. The carrier cable 15 is deflected inside the frame 13 by means of deflecting rollers and from there it comes to the adjacent to the roadheader, deflecting rollers 17 and 18, which are fixedly mounted on the frame 19. The deflected return branch of the carrier cable 15 is connected at its free end near the supporting section 14 of the transfer conveyor with a slide so that when the slide, or, respectively, the transfer conveyor is displaced in the direction of the arrow 20 in the same direction, the support cable 15 also extends above the spiral ventilation pipe 12. the branch between the supporting portion 14 and the deflecting roller 18 is reduced to the same extent that the suspension cable branch 15 between the frame 13 and the supporting portion 21 on the tubular portion 11 of the ventilation pipe is extended. The position of the deflecting rollers 17 and 18 is particularly clearly shown in figure 5, while the support 21 is visible on the ventilation pipe or, respectively, section 11 of the ventilation pipe, which is rigidly connected to the transfer conveyor, as well as the end of the carrier cable 15. In the frame 19 of the transport conveyor fixtures 22 can be used walking mechanism, while the frame is adjacent to the sole of the underground drift.

6 shows the passage of the carrier cable, since the spiral ventilation pipe 10 and other structural parts covering the carrier cable that protect the carrier cable 15 from damage are not shown. The carrier cable 15, in turn, passes, starting from the support 21, through the deflecting rollers in the area of the frame 13 to both guide rollers 17 and 18 fixed to the frame and is rigidly connected to the structural part 23 made in the form of sleds, on which there is a support journal for the transfer conveyor . The reverse branch of the support cable 15 between the rails and the deflecting roller 18 is shortened when shifted in the direction of the arrow 20, while the deflected branch of the support cable 15 moves between the roller 17 and the frame 13 in the opposite direction, namely in the direction of the arrow 24. After the new deflection, the support cable 15 is stretched between the frame 13 and the support 21 in the direction of the arrow 20 and, accordingly, is extended so that the straight section of the spiral ventilation pipe is reliably suspended between the tubular part 7 and the connecting hour tew 25.

Claims (11)

1. A device for driving underground faces, comprising a roadheader, a stationary transportation device located between a roadheader and a stationary transportation device, a transmission or, accordingly, a bridge conveyor mounted with the possibility of movement on a walking mechanism or, respectively, a frame, and a ventilation device containing suction pipe, fixed ventilation pipe and variable length connection of the suction pipe to the dust channel scrap of a ventilation device, characterized in that the variable-length connection comprises a spiral ventilation pipe suspended on a carrier cable, while the carrier cable is tensioned between two supporting parts of the walking mechanism or, respectively, of the frame and the roadheader and directed, at least by means of two deflecting rollers. 2. The device according to claim 1, characterized in that the supporting parts moved in the same direction are formed by a support for the transmission or, respectively, bridge conveyor and / or a part of the subsequent drift conveyor, connected to the tunneling part of the harvester. 3. The device according to claim 1 or 2, characterized in that at least one portion of the supporting cable is formed by a cable tension element or connected to a cable tension element. 4. The device according to claim 1 or 2, characterized in that the free end of the carrier cable is connected to a section connected to the tunneling combine section of the ventilation pipe of the suction pipe. 5. The device according to claim 4, characterized in that the carrier cable is deflected by means of a first roller with a substantially horizontal axis of rotation near the connection of the spiral ventilation pipe to the stationary ventilation pipe from the axis of the section of the ventilation pipe or, accordingly, the axis of the spiral ventilation pipe back through the rollers to the tunneling machine, and the carrier cable is directed by other deflecting rollers at the adjacent end of the frame tunneling machine or, respectively, walking kanism to the longitudinally shifted support of the transmission or, respectively, bridge conveyor, or, respectively, the subsequent drift conveyor, and is fixed on it. 6. The device according to claim 1, characterized in that the deflecting rollers of the support cable are mounted on the frame or on the parts rigidly connected to the frame. 7. The device according to claim 5, characterized in that the maximum extension length of the spiral ventilation pipe is greater than or equal to the distance between the guide rollers opposite in the longitudinal direction. 8. The device according to claim 5, characterized in that the maximum extension length of the spiral ventilation pipe is greater than or equal to the displacement path of the transmission support or, accordingly, the bridge conveyor on the frame or the corresponding walking frame mechanism. 9. The device according to claim 4, characterized in that one end of the transfer or bridge conveyor is rigidly connected to the plot of the spiral ventilation pipe. 10. The device according to claim 1, characterized in that one end of the carrier cable, at least one tension cylinder with a limited tension, is connected to a support.
A priority: 09/29/2005 - claims 1-10.

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