CN204783101U - Combine built on stilts running device of two fortune in machine of digging - Google Patents

Abstract

The utility model relates to a combine built on stilts running device of two fortune in machine of digging, including star gear loading mechanism, reprint the mechanism, generator system, hoist and mount stock, later wheel, top of roadway board and wire rope, star gear loading mechanism sets up and digs the chain drive section in combining power device, transmission, harrow claw mechanism and uninstallation cylinder, it is used for transmission uninstallation cylinder to reprint the mechanism, including slewer, track, belt feeder and track running gear. The utility model discloses break away from single bottom plate, the mode that adopts bottom plate and roof to combine utilizes wheel reversal of the natural order of things later and wire rope to be connected the formation track to having set up and the reprinting mechanism of the wheel work of matching later, having reduced cycle of moving of belt in two shipping units, promoted automatic level, and can adapt to that ore deposit rock geology is soft partially not to exist to fall ten phenomenons and there is the ground of the phenomenon that seeps water, factor of safety is higher relatively in addition.

Description

A kind of fully-mechanized digging machine two transports overhead operated device

Technical field

The utility model relates to mechanical field, is specifically related to a kind of fully-mechanized digging machine two and transports overhead operated device.

Background technology

The construction method in modern home and abroad colliery tunnel mainly contains bores quick-fried driving and comprehensive mechanized driving two kinds, and comprehensive mechanized driving can be divided into again boom-type roadheader to tunnel and tunneling boring stone head development machine two kinds of technology.Wherein, coal and half-coal rock roadway mainly adopt boom-type roadheader technology and equipment, it is a kind of driving technology the most general of adopting of home and abroad colliery field and equipment, also be the tunnelling technology and equipment of a kind of advanced person that the seventies and eighties in 20th century develops rapidly, its nucleus equipment is exactly fully-mechanized digging machine.

When generally carrying out down-hole comprehensive mechanized driving construction, fully-mechanized digging machine two lays 22Kg/m temporary track under transporting actuated small roadster, but, when running into ore deposit rock geology and be partially soft and there is the geological conditions of infiltration phenomenon, actuated small roadster easily slides down, and manually picks up not only dangerous but also affect normal production.

Operationally, owing to often sliding down, therefore, whole transportation needs to be kept an eye on by special messenger two fortune dollies, is absolutely unsafe.Usually, in tunnelling process, every order of classes or grades at school needs to nurse two fortune dollies specially by least 2 people;

Owing to worrying to slide down, fully-mechanized digging machine, when carrying out front and back running, needs especially slowly steadily, has so just had a strong impact on the operating efficiency of machine;

In tunneling process forward, tunnel the belt tail needing frequently to drag two shipping units to a segment distance, thus have impact on production efficiency.

As can be seen here, two shipping units of the single ground rail of traditional use are difficult to meet the needs of production, and have both been difficult to adapt to special ground, have had a strong impact on again production efficiency, and have caused the huge waste to manpower and materials.

Utility model content

For the actual conditions that this restriction is produced, the utility model provides a kind of fully-mechanized digging machine two and transports overhead operated device, depart from single base plate, adopt the mode that base plate is combined with top board, later wheel reversal of the natural order of things is utilized to be connected to form track with wire rope, and be provided with and the transferring mechanism of later taking turns the work that matches, thus have developed fully-mechanized digging machine two and transport overhead operated device, the utility model adopt to decrease belt in two shipping units after overhead device move the cycle, improve automatization level, and the ground of the partially soft phenomenon and existence is seeped water of ore deposit rock geology can be adapted to, dramatically saves on manpower and materials.There are not the ten road phenomenons that slide down in the utility model, and safety factor is relatively high.

The utility model realizes with following technical scheme, and a kind of fully-mechanized digging machine two transports overhead operated device, comprises star-wheel loading mechanism, transferring mechanism, group of motors, lifting anchor pole, later wheel, back and wire rope,

Described star-wheel loading mechanism is arranged at fully-mechanized digging machine head, comprise power set, transmission device, raking claw machinery and unloading roller, described transmission device comprises two reducers being arranged at described fully-mechanized digging machine direction of advance both sides, connect the first gear mechanism of two reducers and the second gear mechanism of connection reducer and raking claw machinery, described power set drive the reducer of side, first gear mechanism by power transmission to the reducer of opposite side, second gear mechanism by the power transmission at two side speed reducer places to raking claw machinery, described raking claw machinery is for collecting the material produced when fully-mechanized digging machine runs, and described material is loaded into unloading roller,

Described transferring mechanism, for transmitting unloading roller, comprises slewing equipment, track, conveyor, crawler belt running gear, and described crawler belt running gear is connected by slewing equipment with between track, and along slewing equipment central rotation; By stud connection between described slewing equipment and track, described crawler belt running gear drives described unloading roller orbital motion;

Described rail superior portion is provided with back, and described back two end points are fixed with lifting anchor pole respectively, and described wire rope is arranged on described lifting anchor pole, and described later wheel is along described steel cable sliding;

Described unloading roller top is provided with lockable mechanism, at described unloading roller along in described orbital motion process, described unloading roller top lockable mechanism contacts with described later wheel, described later wheel and described unloading roller link together by described lockable mechanism, and described unloading roller moves along described track and described wire rope simultaneously;

Described group of motors comprises the first motor and the second motor, and described first motor moves for driving described crawler belt running gear, and described second motor is used for driving later wheel to move along described wire rope.

Preferably, described back first end points is positioned at directly over described track, and the second end points of described back protrudes from described track and extends to track outside, and described second end points and described fully-mechanized digging machine lay respectively at the both sides of described track.

Preferably, described back first end points is positioned at directly over the mid point of described track.

Preferably, described power set are gear oil motor.

Preferably, in described transmission device, described first gear mechanism comprises a pair circular-arc bevel gear, described gear oil motor is arranged on the reducer of left side, a pair circular-arc bevel gear in reducer is driven to rotate, bevel gear wheel drives another horizontal small arc-shaped bevel gear to rotate simultaneously, transfers torque on the reducer of opposite side; Described second gear mechanism comprises identical two orthodrome cones tooth, second level straight spur gear and third level straight spur gears, two orthodrome bevel gears identical in left and right reducer are slowed down respectively by the second level and third level straight spur gear, and moment of torsion is passed to raking claw machinery.

Preferably, described raking claw machinery comprises shovel board, crank disk, rake pawl and auxiliary connection, and described crank disk is for accepting the moment of torsion of described transmission device, and described rake pawl and shovel board are used for collection material, and described material is poured onto described unloading roller.

Preferably, the centerline parallel transported of described wire rope and fully-mechanized digging machine two.

Preferably, fully-mechanized digging machine two is transported travel range and must not be exceeded steel wire hang scope.

The beneficial effects of the utility model are:

The utility model provides a kind of fully-mechanized digging machine two and transports overhead operated device, depart from single base plate, adopt the mode that base plate is combined with top board, later wheel reversal of the natural order of things is utilized to be connected to form track with wire rope, and be provided with and the transferring mechanism of later taking turns the work that matches, thus have developed fully-mechanized digging machine two and transport overhead operated device, the utility model adopt to decrease belt in two shipping units after overhead device move the cycle, improve automatization level, and can adapt to ore deposit rock geology partially soft and exist infiltration phenomenon ground, dramatically saves on manpower and materials.There are not the ten road phenomenons that slide down in the utility model, and safety factor is relatively high.

Accompanying drawing explanation

Fig. 1 is embodiment annexation schematic diagram.

Wherein: 1-slewing equipment, 2-track, 3-conveyor, 4-crawler belt running gear, 5-unloading roller, 6-back, 7-lifts anchor pole, 8-wire rope, and 9-is wheel later, 10-first motor, 11-second motor.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, the utility model is described in further detail.

In one embodiment, as shown in Figure 1, a kind of fully-mechanized digging machine two transports overhead operated device, comprises star-wheel loading mechanism, transferring mechanism, group of motors, lifting anchor pole 7, later wheel 9, back 6 and wire rope 8,

Described star-wheel loading mechanism is arranged at fully-mechanized digging machine head, comprise power set, transmission device, raking claw machinery and unloading roller 5, described transmission device comprises two reducers being arranged at described fully-mechanized digging machine direction of advance both sides, connect the first gear mechanism of two reducers and the second gear mechanism of connection reducer and raking claw machinery, described power set drive the reducer of side, first gear mechanism by power transmission to the reducer of opposite side, second gear mechanism by the power transmission at two side speed reducer places to raking claw machinery, described raking claw machinery is for collecting the material produced when fully-mechanized digging machine runs, and described material is loaded into unloading roller 5,

Described transferring mechanism, for transmitting unloading roller 5, comprises slewing equipment 1, track 2, conveyor 3, crawler belt running gear 4, and described crawler belt running gear 4 is connected by slewing equipment 1 with between track 2, and along slewing equipment 1 central rotation; By stud connection between described slewing equipment 1 and track 2, described crawler belt running gear 4 drives described unloading roller 5 to move along track 2;

Described track 2 top is provided with back 6, and described back 6 two end points are fixed with lifting anchor pole 7 respectively, and described wire rope 8 is arranged on described lifting anchor pole 7, and described later wheel 9 slides along described wire rope 8;

Described unloading roller 5 top is provided with lockable mechanism, at described unloading roller 5 along in described track 2 motion process, described unloading roller 5 top lockable mechanism contacts with described later wheel 9, described later wheel 9 and described unloading roller 5 link together by described lockable mechanism, and described unloading roller 5 moves along described track 2 and described wire rope 8 simultaneously;

Described group of motors comprises the first motor 10 and the second motor 11, and described first motor 10 moves for driving described crawler belt running gear 4, and described second motor 11 moves along described wire rope 8 for driving later wheel 9.

Preferably, described back 6 first end points is positioned at directly over described track 2, and the second end points of described back 6 protrudes from described track 2 and extends to track 2 outside, and described second end points and described fully-mechanized digging machine lay respectively at the both sides of described track 2.

Preferably, described back 6 first end points is positioned at directly over the mid point of described track 2.

Preferably, described power set are gear oil motor.

Preferably, in described transmission device, described first gear mechanism comprises a pair circular-arc bevel gear, described gear oil motor is arranged on the reducer of left side, a pair circular-arc bevel gear in reducer is driven to rotate, bevel gear wheel drives another horizontal small arc-shaped bevel gear to rotate simultaneously, transfers torque on the reducer of opposite side; Described second gear mechanism comprises identical two orthodrome cones tooth, second level straight spur gear and third level straight spur gears, two orthodrome bevel gears identical in left and right reducer are slowed down respectively by the second level and third level straight spur gear, and moment of torsion is passed to raking claw machinery.

Preferably, described raking claw machinery comprises shovel board, crank disk, rake pawl and auxiliary connection, and described crank disk is for accepting the moment of torsion of described transmission device, and described rake pawl and shovel board are used for collection material, and described material is poured onto described unloading roller 5.

Preferably, the centerline parallel transported of described wire rope 8 and fully-mechanized digging machine two.

Preferably, fully-mechanized digging machine two is transported travel range and must not be exceeded wire rope 8 and hang scope.

Described first motor 10 top is object disposing platform, described object disposing platform is used for parking described unloading roller 5, described unloading roller 5 is parked in the material described object disposing platform receiving described raking claw machinery and topple over, and now later wheel 9 is positioned at the end points of wire rope near the second motor 11 end; When described unloading roller 5 fills with, first motor 10 drives crawler belt running gear 4 to drive described unloading roller 5 to move along track 2, when described unloading roller 5 contacts with described later wheel 9, described later wheel 9 and described unloading roller 5 link together by described lockable mechanism, and described unloading roller 5 moves along described track 2 and described wire rope 8 simultaneously; Just de-orbit when described unloading roller 5 moves to the end of described track 2, follow described later wheel and continue to move along described wire rope, until arrive the end of described wire rope, disassembled by workman, process the material in described unloading roller 5.

After the material in unloading roller 5 is toppled over, described unloading roller is hung on described gyroscope wheel 9 by workman, described second motor 11 drives described gyroscope wheel 9 to carry described unloading roller 5 and moves to track 2 direction, described unloading roller 5 contacts with track 2 and just moves along track 2 and wire rope simultaneously, gyroscope wheel 9 is departed from when described unloading roller moves to described second motor 11 place, and continue to move to object disposing platform along track 2, continue to take up the material of toppling over from described raking claw machinery.

Above disclosedly be only the utility model preferred embodiment, certainly can not limit the interest field of the utility model with this, therefore according to the equivalent variations that the utility model claim is done, still belong to the scope that the utility model is contained.

Claims (6)

1. fully-mechanized digging machine two transports an overhead operated device, it is characterized in that, comprises star-wheel loading mechanism, transferring mechanism, group of motors, lifting anchor pole (7), later wheel (9), back (6) and wire rope (8),

Described star-wheel loading mechanism is arranged at fully-mechanized digging machine head, comprise power set, transmission device, raking claw machinery and unloading roller (5), described transmission device comprises two reducers being arranged at described fully-mechanized digging machine direction of advance both sides, connect the first gear mechanism of two reducers and the second gear mechanism of connection reducer and raking claw machinery, described power set drive the reducer of side, first gear mechanism by power transmission to the reducer of opposite side, second gear mechanism by the power transmission at two side speed reducer places to raking claw machinery, described raking claw machinery is for collecting the material produced when fully-mechanized digging machine runs, and described material is loaded into unloading roller (5),

Described transferring mechanism is for transmitting unloading roller (5), comprise slewing equipment (1), track (2), conveyor (3) and crawler belt running gear (4), described crawler belt running gear (4) is connected by slewing equipment (1) with between track (2), and along slewing equipment (1) central rotation; By stud connection between described slewing equipment (1) and track (2), described crawler belt running gear (4) drives described unloading roller (5) to move along track (2);

Described track (2) top is provided with back (6), described back (6) two end points are fixed with lifting anchor pole (7) respectively, described wire rope (8) is arranged on described lifting anchor pole (7), and described later wheel (9) slides along described wire rope (8);

Described unloading roller (5) top is provided with lockable mechanism, at described unloading roller (5) along in described track (2) motion process, described unloading roller (5) top lockable mechanism is later taken turns (9) contact with described, described later wheel (9) and described unloading roller (5) link together by described lockable mechanism, and described unloading roller (5) is simultaneously along described track (2) and described wire rope (8) motion;

Described group of motors comprises the first motor (10) and the second motor (11), described first motor (10) is moved for driving described crawler belt running gear (4), and described second motor (11) is moved along described wire rope (8) for driving later wheel (9).

2. a kind of fully-mechanized digging machine two according to claim 1 transports overhead operated device, it is characterized in that, described back (6) first end points is positioned at directly over described track, second end points of described back (6) protrudes from described track (2) and extends to track (2) outside, and described second end points and described fully-mechanized digging machine lay respectively at the both sides of described track (2).

3. a kind of fully-mechanized digging machine two according to claim 2 transports overhead operated device, it is characterized in that, described back (6) first end points is positioned at directly over the mid point of described track (2).

4. transport overhead operated device according to a kind of fully-mechanized digging machine two in claim 1-3 described in any one, it is characterized in that, described power set are gear oil motor.

5. transport overhead operated device according to a kind of fully-mechanized digging machine two described in claim 4, it is characterized in that, in described transmission device, described first gear mechanism comprises a pair circular-arc bevel gear, described gear oil motor is arranged on the reducer of left side, drive a pair circular-arc bevel gear in reducer to rotate, bevel gear wheel drives another horizontal small arc-shaped bevel gear to rotate simultaneously, transfers torque on the reducer of opposite side; Described second gear mechanism comprises identical two orthodrome cones tooth, second level straight spur gear and third level straight spur gears, two orthodrome bevel gears identical in left and right reducer are slowed down respectively by the second level and third level straight spur gear, and moment of torsion is passed to raking claw machinery.

6. transport overhead operated device according to a kind of fully-mechanized digging machine two described in claim 5, it is characterized in that, described raking claw machinery comprises shovel board, crank disk, rake pawl and auxiliary connection, described crank disk is for accepting the moment of torsion of described transmission device, described rake pawl and shovel board are used for collection material, and described material is poured onto described unloading roller (5).