RU2403544C1 - Test rig for parametres of longwall drag conveyor with double-chain horizontally closed traction member - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: test rig for parametres of longwall drag conveyor with double-chain horizontally closed traction member includes frame, piece of traction member, support device for traction member, tensioning device of traction member and measurement devices. At that, support device for traction member is made of combination of three chute pieces - horizontal, vertical and transient curved section, which connects them to each other, and traction member is double-chain and has transverse drags fixed on round-link chains of traction member; at that, ends of drags oriented towards the chute and interacting with its curved section have curved profile; at that, the above circuits, when the vertical chute piece ends, are provided with possibility of bending of two non-drive units installed on vertical axis and with possibility of their being supported on vertically oriented deflecting units and are connected by means of thimbles and to ropes, and ends of ropes through dynamometres are connected to rope tension drives; opposite ends of chains, which are arranged in horizontal chute section, are also connected by means of thimbles to ropes so that they envelope vertically oriented deflecting units; on rope ends there fixed are suspensions with possibility of arranging replaceable loads; at that, transient curved section is made in the form of set of several elements of various length and attached to horizontal and vertical chute sections by means of flanges oriented from lower plane of the chute, and deflecting units enveloped with ropes with suspensions for replaceable loads are fixed on the frame.

EFFECT: providing the possibility of performing experimental test on the rig regarding determination of parametres of longwall drag conveyor with double-chain horizontally closed traction member.

4 cl, 4 dwg

Description

The invention relates to conveyor engineering, and in particular to stands for researching the parameters of a downhole scraper conveyor with a double-chain traction unit.

A well-known stand for the study of the parameters of the conveyor, containing the frame, a segment of the traction-bearing body with the possibility of placing samples of the transported cargo on it, a support device for the traction body, a device for tensioning the traction body and measuring devices (Pat. RF No. 2188787, IPC B65G 15/00 43/00, 2000).

However, the known stand cannot be used to study the parameters of the downhole scraper conveyor.

The technical result of the invention is the possibility of carrying out experimental studies at the test bench to determine the parameters of the downhole scraper conveyor with a two-chain horizontally closed traction unit.

The technical result is achieved by the fact that in the test bench for the parameters of the downhole scraper conveyor with a two-chain horizontally closed traction unit containing a frame, a segment of the traction body, a support device for the traction body, a device for tensioning the traction body and measuring devices, according to the invention, a support device for the traction body made of a combination of three segments of the gutter - horizontal, vertical and connecting transitional curved section, and traction about the ridge is made of double-chain with transverse scrapers mounted on the round link chains of the traction body, while the ends of the scrapers oriented towards the trough and interacting with its curvilinear section have a curved profile, while the said chains, when leaving the vertical part of the trough, are arranged to bend around the two installed on the vertical axis non-driven blocks and with the possibility of their support on vertically oriented deflecting blocks and with the help of thimbles connected to the ropes, and the ends of the ropes through dynamometers are connected with rope tension drives, opposite ends of the chains located on the horizontal section of the gutter are also connected with ropes to the ropes with the possibility of bending around vertically oriented deflecting blocks, suspensions are fixed at the ends of the ropes with the possibility of placing removable loads on them, while the transitional curvilinear the section is made in the form of a set of several elements of different lengths and is attached to the horizontal and vertical sections of the gutter using flanges oriented to the side it from the lower plane of the gutter, and the deflecting blocks, enveloped by ropes with suspensions for removable loads, are fixed on the frame. Rope tension drives can be made in the form of screw pairs, power cylinders or counterweights.

The stand is shown in the drawings, where in Fig. 1 is a top view, in Fig. 2 is a view A in Fig. 1, in Fig. 3 is a view B in Fig. 1, in Fig. 4 is a section BB in a curved section in figure 1.

The stand contains a frame 1, a segment of the traction body, consisting of two round link chains 2 and 3 with transverse scrapers 4 fixed on them, a support device for the traction body, made of a combination of three segments of the trough - horizontal 5, vertical 6 and the transitional curved section 7 connecting them Oriented towards the trough 5, 6, 7 and interacting with its curved section 7, the ends of the scrapers 4 have a curved profile. When leaving the vertical section 6 of the chute, chains 2 and 3 are placed with the possibility of bending around two non-drive units 9 and 10 mounted on the vertical axis 8 and with the possibility of supporting chains 2 and 3 on vertically oriented deflecting blocks 11 and 12. Chains 2 and 3 with thimbles 13 and 14 are connected to the ropes 15 and 16. The ends of the ropes 15 and 16 are connected through the dynamometers 17 and 18 to the drives 19 and 20 of the tension of the ropes 15 and 16. The opposite ends of the chains 2 and 3, located on the horizontal section 5 of the groove, also using thimbles 21 and 22 are connected to ropes 23 and 24 with the possibility of og bang them vertically oriented deflecting blocks 25 and 26. At the ends of the ropes 23 and 24, pendants 27 and 28 are fixed with the possibility of placing removable loads 29 and 30 on them. The transition curved section 7 is made in the form of a set of several elements of different lengths and is attached to the horizontal 5 and vertical 6 sections of the gutter using flanges 31 and 32 oriented to the side from the lower plane of the gutter, and the deflecting blocks 25 and 26, enveloped by ropes 23, 24, with suspensions 27, 28 for removable loads 29, 30, are mounted on the frame 1. Drives 19 and 20 rope tension Ovs 15 and 16 can be made in the form of screw pairs, power cylinders or balances.

Work on the stand after its installation is performed as follows. Between the horizontal 5 and vertical 6 sections of the trough, its removable transitional curved section 7 of the corresponding length is placed, starting with the curved section of the minimum length. Using interchangeable weights 29 and 30, placed on suspensions 27 and 28, tension is formed in the ropes 23 and 24, simulating the tension of both round link chains of the traction body of the simulated downhole scraper conveyor. Initially, the tension equal in magnitude is set in both branches 2 and 3 of the scraper chain. Further, with the help of drives 19 and 20 - in the form of a screw pair, power cylinders or counterweights - they provide simultaneous displacement of both chains 2 and 3, running from non-drive units 9 and 10 by an amount not exceeding the length of the horizontal 5 and vertical 6 sections of the gutter with simultaneous fixation the tension of both chains 2 and 3 according to dynamometers 17 and 18. The experiments are carried out at different loading of suspensions 27 and 28 with interchangeable weights 29 and 30, corresponding to different tension of the scraper chain in the zone of its running on the drive sprocket of the simulated conveyor And at various lengths curved transition portion 7 trough. From the difference in the readings of the dynamometers 17, 18 and the weights of the suspensions 27, 28 with interchangeable weights 29, 30, the resistance to the movement of both chains 2 and 3 with the scrapers 4 is determined when the traction body bends around the curvilinear section 7 of the gutter, on which the traction body with the scrapers 4 rotates at an angle 90 degrees - upon its transition from horizontal (5) to vertical (6) position. In the presence of distortions of the scrapers 4 relative to the chains 2, 3, which can occur when the resistance to movement of the upper 3 (in the envelope zone of the non-drive unit 9) and lower 2 (in the envelope of the non-drive unit 10) chains is different, additional studies are carried out with different weights of interchangeable loads 29, 30 on suspensions 27, 28, forming the tension of both chains 2 and 3, kinematically connected with each other by scrapers 4. The ratio of the weights of interchangeable loads 29 and 30 on suspensions 27 and 28 is chosen so that the scrapers 4 when moving chains 2 and 3 places vivo Recording strictly perpendicular to both strands 2 and 3.

During the experiments, the location of both chains 2, 3 with scrapers 4 on the curved section 7 of the trough is also monitored for different tension of chains 2, 3 and different lengths of the curved section 7 of the trough in order to select such parameters of the curved section 7 of the trough, which ensures a reliable turn of the scraper -chain traction body with the smallest possible length of the curved section 7 and the stable placement of the traction body 2, 3, 4 on the curved section 7 of the trough. The data obtained as a result of the set of experimental studies described above at the bench will allow us to reasonably choose the parameters of the simulated downhole scraper conveyor.

Distinctive features of the invention make it possible to conduct experimental research at the test bench to determine the parameters of the downhole scraper conveyor with a horizontally closed double-chain traction unit.

Claims (4)

1. A bench for studying the parameters of a face-down scraper conveyor with a two-chain horizontally closed traction body, comprising a frame, a segment of the traction body, a support device for the traction body, a device for tensioning the traction body and measuring devices, characterized in that the support device for the traction body is made of a combination three segments of the gutter - horizontal, vertical and connecting transitional curvilinear section connecting them, and the traction body is made double-chain with fixed on round link chains of the traction body with transverse scrapers, while the ends of the scrapers oriented towards the trough and interacting with its curved section have a curved profile, while the said chains, when leaving the vertical section of the trough, are arranged to bend around two non-drive units mounted on the vertical axis and with the possibility of bearing on vertically oriented deflecting blocks and using jacks connected to the ropes, and the ends of the ropes through dynamometers are connected to the tension drives to nats, opposite ends of the chains, located on the horizontal section of the gutter, are also connected with ropes to ropes with the possibility of bending around vertically oriented deflecting blocks, suspensions are fixed at the ends of the ropes with the possibility of placing removable loads on them, while the transition curved section is made in the form of a set of several elements of different lengths and is attached to the horizontal and vertical sections of the gutter using flanges oriented to the side from the lower plane of the gutter, and deflecting blocks, envelope ropes with pendants for removable cargo, secured to the frame. 2. The stand according to claim 1, characterized in that the rope tension drives are made in the form of screw pairs. 3. The stand according to claim 1, characterized in that the rope tension drives are made in the form of power cylinders. 4. The stand according to claim 1, characterized in that the rope tension drives are made in the form of counterweights.

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