CN105089692A - Safe and quick installation method of steeply inclined fully mechanized mining equipment - Google Patents

Abstract

The invention discloses a safe and quick installation method of steeply inclined fully mechanized mining equipment. The method comprises the following steps: a) laying a transportation route; b) loading and transporting fully mechanized mining equipment; c) performing platform transfer; d) performing equipment reinforcement; e) lowering the equipment; f) assembling the equipment. In the step of performing platform transfer, a platform plane and an upper plane of a crossheading flatcar are on the same horizontal plane; in the step of lowering the equipment, the bottom of the fully mechanized mining equipment is directly and transversely placed on a hole cutting track plane. The safe and quick installation method of the steeply inclined fully mechanized mining equipment has the beneficial effects that the lifting beam transfer procedure and the transverse placement flatcar used in the cut hole are abandoned, the problems that the fully mechanized mining equipment easily topples over and runs out of the track in the cut hole of the steeply inclined coal layer are simultaneously solved, and the safe and quick installation of the fully mechanized mining equipment is realized.

Description

A kind of high-dipping fully-mechanized mining equipment mounting method safely and fast

Technical field

The present invention relates to coal-mine integrated-mining equipment mounting method, particularly a kind of high-dipping fully-mechanized mining equipment method for rapidly mounting.

Background technology

In the installation work of colliery high-dipping fully-mechanized mining equipment, usual employing be mounting of roof plate boom hoisting above working face open-off cut eye, utilize boom hoisting to be changed by the fully-mechanized mining equipment on crossheading flat car to be fixed in and to cut on a traverse flatcar, then with prop drawer traverse flatcar put into together with hydraulic support and cut intraocular and assemble.The high-dipping coal-face adopting true dip to move towards longwell comprehensive mechanized coal mining method, because seam inclination is large, affect by roadway support section, when meeting outlet roof cracking or geological structural belt, traditional boom hoisting is adopted to join traverse flatcar mounting method inadaptable, roof cracking section cannot install boom hoisting, and upper outlet safety management difficulty is large; Adopt traverse flatcar carrying fully-mechanized mining equipment to put into together and cut eye, increase the requirement to cutting eye height, meanwhile, it is large that traverse flatcar and fully-mechanized mining equipment cut intraocular dismounting difficulty at half-edge coal seam, easily to topple over and lower road accident, cause that fully-mechanized mining equipment installation progress is slow, security threat is large.

Summary of the invention

Object of the present invention overcomes the deficiencies in the prior art exactly, provides a kind of and cancels lifting beam and traverse flatcar, realize fully-mechanized mining equipment from crossheading be steadily transported to cut intraocular high-dipping fully-mechanized mining equipment mounting method safely and fast.

For achieving the above object, the present invention adopts following technical scheme.

A, lay transportation route: crossheading track is extended down to cut eye suitable for reading, build transferring platform, transhipment winch, main hoisting gear, secondary hoisting gear are installed, then from transferring platform to cut intraocular install be applicable to that fully-mechanized mining equipment laterally glides transfer track, form a passage for fully-mechanized mining equipment is transported to assembling point.

B, shipment fully-mechanized mining equipment: fully-mechanized mining equipment is fixed on flatcar by front end towards crossheading outlet, guaranteeing must tuning in fully-mechanized mining equipment transport and installation process, utilizes locomotive, winch to be transported to from terrestrial segment and cuts that eye is suitable for reading to come to a complete stop, and near transferring platform.

C, platform transfer: dismantle fully-mechanized mining equipment and flatcar fastener, utilize transhipment winch to be used as power by fully-mechanized mining equipment traction on transferring platform, transferring platform is provided with positioner, guarantees that fully-mechanized mining equipment center of gravity is being cut on a track centerline.

D, equipment are reinforced: utilize wire rope to make pocket rope and entangled firm by fully-mechanized mining equipment, and it is affixed with main hoisting gear, secondary hoisting gear pull rope, main hoisting gear origin of force with cut that to put orbit centre now consistent, affixed stopping means bottom fully-mechanized mining equipment, stopping means, near transferring outside track, is guaranteed left and right skew does not occur in fully-mechanized mining equipment decentralization process.

E, equipment are transferred: dismantle and transport winch pull rope and tighten up main hoisting gear pull rope, utilize hydraulic prop that fully-mechanized mining equipment is moved to knick point, carry out control speed transfer by main hoisting gear.

F, device assembles: fully-mechanized mining equipment is transferred to after transferring track end, stop stopping means of dismantling in time, change by secondary hoisting gear controlling party to, continue to transfer and assemble to installation site.

Preferably, in described step c, on crossheading flatcar, plane and transferring platform face are in same level, guarantee that fully-mechanized mining equipment need not lift by crane steadily to be transported to and cut on a platform.

Preferably, in described step e, the direct traverse of fully-mechanized mining equipment, in cutting in a track plane, utilizes deadweight to slide in orbit, utilizes stopping means to lead, and realizes fully-mechanized mining equipment cancellation traverse flatcar and transfers.

Preferably, in described steps d, e, f, crossheading flat car is unloaded, and carry out second fully-mechanized mining equipment by winch, locomotive and perform b, step c, b, step c and last fully-mechanized mining equipment d, e, f step are carried out simultaneously, by that analogy, terminates until install.

The present invention's beneficial effect is compared with prior art, mounting method eliminates lifting beam transfer procedure and cuts the use of intraocular traverse flatcar, solve fully-mechanized mining equipment to cut intraocular at half-edge coal seam and easily topple over and the difficult problem in lower road simultaneously, achieve fully-mechanized mining equipment and install safely and fast.

Accompanying drawing explanation

Fig. 1 is that fully-mechanized mining equipment of the present invention utilizes crossheading flatcar to be parked in cut eye schematic diagram suitable for reading.

Fig. 2 is that fully-mechanized mining equipment of the present invention is transported to platform schematic diagram.

Fig. 3 is that fully-mechanized mining equipment of the present invention reinforcing schematic diagram stops.

To be fully-mechanized mining equipment of the present invention transfer floor map cutting intraocular to Fig. 4.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is further illustrated, but therefore do not limit the present invention among described scope of embodiments.

Participate in Fig. 1, Fig. 2, Fig. 3, Fig. 4, a kind of high-dipping fully-mechanized mining equipment mounting method safely and fast, is characterized in that comprising the following steps.

A, lay transportation route: crossheading 1 track 2 is extended down to cut eye 3 suitable for reading, build transferring platform 4, transhipment winch 5, main hoisting gear 6, secondary hoisting gear 7 are installed, then transfer track 8 from transferring platform 4 to cutting in eye 3 to install.

B, shipment fully-mechanized mining equipment: be fixed on flatcar 10 towards crossheading outlet by front end by fully-mechanized mining equipment 9, utilize locomotive, winch to be transported to from terrestrial segment and cut that eye 3 is suitable for reading to come to a complete stop, and near transferring platform 4.

C, platform transfer: dismantle fully-mechanized mining equipment 9 and flatcar 10 fastener, utilize transhipment winch 5 to be used as power and draw on transferring platform 4 by fully-mechanized mining equipment 9, near positioner 11.

D, equipment are reinforced: utilize wire rope to make pocket rope and entangled firm by fully-mechanized mining equipment 9, and it is affixed with main hoisting gear 6, secondary hoisting gear 7 pull rope, to transfer track 8 center consistent with cutting eye 3 for main hoisting gear 6 origin of force, affixed stopping means 12 bottom fully-mechanized mining equipment 9, stopping means 12 is near transferring outside track 8.

E, equipment are transferred: dismantle and transport winch 5 pull rope and tighten up main hoisting gear 6 pull rope, utilize hydraulic prop that fully-mechanized mining equipment 9 is moved to knick point, carry out control speed transfer by main hoisting gear 6.

F, device assembles: fully-mechanized mining equipment 9 is transferred to after transferring track 8 end, stop stopping means 12 of dismantling in time, change by secondary hoisting gear 7 controlling party to, continue to transfer and assemble to installation site.

In described step c, on crossheading 1 flatcar 10 on plane and transferring platform 4 plane in same level.

In described step e, fully-mechanized mining equipment 9 directly traverse is transferred in track 8 plane in cutting in eye 3, utilizes deadweight to slide in orbit, utilizes stopping means 12 to lead, and realizes fully-mechanized mining equipment 9 and cancels traverse flatcar and transfer.

In described steps d, e, f, crossheading 1 flatcar 10 is unloaded, carries out second fully-mechanized mining equipment repeat b, step c by winch, locomotive, and second fully-mechanized mining equipment b, step c and First fully-mechanized mining equipment d, e, f step are carried out simultaneously, by that analogy, until install end.

Although describe embodiments of the present invention by reference to the accompanying drawings, but those of ordinary skill in the art also can recognize in the scope to claims and makes variations and modifications, these modifications and variations are interpreted as within scope of the present invention and intention.

Claims (4)

1. a high-dipping fully-mechanized mining equipment mounting method safely and fast, is characterized in that comprising the following steps:

A), transportation route is laid: crossheading (1) track (2) is extended down to cut eye (3) suitable for reading, build transferring platform (4), transhipment winch (5), main hoisting gear (6), secondary hoisting gear (7) are installed, then transfer track (8) from transferring platform (4) to cutting in eye (3) to install;

B), shipment fully-mechanized mining equipment: fully-mechanized mining equipment (9) is fixed on flatcar (10) towards crossheading outlet by front end, utilizes locomotive, winch to be transported to from terrestrial segment and cut that eye (3) is suitable for reading to come to a complete stop, and near transferring platform (4);

C), platform transfer: fully-mechanized mining equipment of dismantling (9) and flatcar (10) fastener, utilize transhipment winch (5) to be used as power by fully-mechanized mining equipment (9) traction on transferring platform (4), near positioner (11);

D), equipment is reinforced: utilize wire rope to make pocket rope and entangled firm by fully-mechanized mining equipment (9), and it is affixed with main hoisting gear (6), secondary hoisting gear (7) pull rope, to transfer track (8) center consistent with cutting eye (3) for main hoisting gear (6) origin of force, fully-mechanized mining equipment (9) the affixed stopping means in bottom (12), stopping means (12) is near transferring track (8) outside;

E), equipment is transferred: dismantle and transport winch (5) pull rope and tighten up main hoisting gear (6) pull rope, utilize hydraulic prop that fully-mechanized mining equipment (9) is moved to knick point, carry out control speed transfer by main hoisting gear (6);

F), device assembles: fully-mechanized mining equipment (9) is transferred to after transferring track (8) end, and stop stopping means (12) of dismantling in time, change by secondary hoisting gear (7) controlling party to, continue to transfer and assemble to installation site.

2. a kind of high-dipping fully-mechanized mining equipment according to claim 1 safely and fast mounting method it is characterized in that: in described step c, on crossheading 1 flatcar 10 on plane and transferring platform 4 plane in same level.

3. a kind of high-dipping fully-mechanized mining equipment according to claim 1 safely and fast mounting method it is characterized in that: in described step e, fully-mechanized mining equipment 9 directly traverse is transferred in track 8 plane in cutting in eye 3, deadweight is utilized to slide in orbit, utilize stopping means 12 to lead, realize fully-mechanized mining equipment 9 and cancel traverse flatcar and transfer.

4. a kind of high-dipping fully-mechanized mining equipment according to claim 1 safely and fast mounting method it is characterized in that: in described steps d, e, f, flatcar 10 repeats b, step c, second fully-mechanized mining equipment b, step c and the parallel operations of First fully-mechanized mining equipment d, e, f step, by that analogy, until install end.