CN203173730U - Mine winch rope arranging mechanism - Google Patents

Abstract

The utility model relates to a mine winch rope arranging mechanism provided with a roller, wherein the roller is driven by a motor, and a steel wire rope is wound by the outer side of the roller. A swing trolley is arranged below the roller, anti-explosion electromagnets are installed at the two ends of the swing trolley, two lower rod rotating shafts with cylindrical gears are vertically installed on the swing trolley, and the two ends of a roller rotating shaft are respectively connected with an upper rod rotating shaft with a cylindrical gear through a pair of meshed angle gear sets. After the anti-explosion electromagnet at one end of the swing trolley is attracted, the cylindrical gear arranged on the upper rod rotating shaft at the end far from the attracted electromagnet is meshed with the cylindrical gear arranged on the lower rod rotating shaft at the end far from the attracted electromagnet, and the cylindrical gear arranged on the upper rod rotating shaft at the end close to the attracted electromagnet is separated from the cylindrical gear arranged on the lower rod rotating shaft at the end close to the attracted electromagnet. A ring of chain is installed on the two lower rod rotating shafts, a rope sleeve is sleeved on the chain, and the steel wire rope is wound on the roller after penetrating through the rope sleeve. The mine winch rope arranging mechanism has the advantages of being simple in structure, accurate in action, good in rope arranging effect and the like, and can ensure that the steel wire rope is arranged tightly and orderly when wound on the roller and prevent the steel wire rope from being piled up.

Description

The mine winch rope-arranging mechanism

Technical field

The utility model content belongs to mine lift machinery technical field, relates to a kind of mine winch rope-arranging mechanism.

Background technology

Mine winch when Wound steel rope, owing to wire rope load changes or cylinder rotates reasons such as sudden change, steel rope may be on cylinder cross arrangement, influence life-span of steel rope.And present rope-arranging mechanism well known in the art is owing to exist problems such as the stressed big and difficulty of processing of parts is big, and result of use is also unsatisfactory.

The utility model content

The purpose of this utility model is the problem that prior art exists is solved, provide a kind of simple in structure, action accurately, the effective mine winch rope-arranging mechanism of row's rope.

The technical solution that adopts is so for achieving the above object: the mine winch rope-arranging mechanism that provides has a cylinder that is wound with steel rope by the motor-driven outside, below cylinder, be provided with the swing dolly that two ends are equipped with anti-explosion is electromagnetic iron and can be moved around along the roller shaft direction, two, the left and right sides of swing dolly uprightly is set with the lower beam rotating shaft of a upper end band cylindrical wheel respectively by bearing seat, respectively be connected with the upper boom rotating shaft of a lower end band cylindrical wheel by the pair of meshing bevel gear set at the two ends, the left and right sides of roller shaft, after the anti-explosion is electromagnetic iron adhesive of swing dolly one end, then apart from the last lower beam rotating shaft of this anti-explosion is electromagnetic iron remote location with the cylindrical wheel engagement, and apart from the last lower beam rotating shaft at this anti-explosion is electromagnetic iron proximal location place with cylindrical wheel separately, divide the interval that two travel switches are set at swing dolly end face, about be set with a circle chain by sprocket wheel in two lower beam rotating shafts, serobila in chain position between two travel switches is equipped with a rope sling, be wound on the cylinder behind the steel wire penetrating rope sling, when rope sling with after the travel switch of a side contacts, then with the anti-explosion is electromagnetic iron adhesive of the trip switch offside, and unclamp with the anti-explosion is electromagnetic iron of the trip switch homonymy.

In the above-mentioned mine winch rope-arranging mechanism, the spacing that is located at two travel switches on the swing dolly end face equals the length of cylinder.

When the utility model is started working, an at first adhesive of side anti-explosion is electromagnetic iron, the swing dolly makes the cylindrical wheel engagement of lower beam rotating shaft on the opposite side to this lateral movement, and after the driven by motor cylinder was with rotation, steel rope can be wound on the cylinder; Meanwhile, bevel gear set will be rotated synchronously with drum shaft, the cylindrical wheel that drives two engagements of adhesive anti-explosion is electromagnetic iron opposite side rotates, cylindrical wheel and then drive chain movement, thereby the rope sling of drive installation on chain is to a lateral movement of adhesive anti-explosion is electromagnetic iron, guarantee that steel rope can closely arrange in an orderly manner when cylinder is reeled, prevent that steel rope from piling up together.When rope sling contacts with the rope operation and with travel switch, the anti-explosion is electromagnetic iron of former adhesive one side is decontroled, and the anti-explosion is electromagnetic iron adhesive of opposite side, the swing dolly moves to opposite side, make the cylindrical wheel engagement of lower beam rotating shaft on this side, at this moment, the conical gear of engagement with chain drive-belt and rope sling towards counter motion.

Description of drawings

Accompanying drawing is the contour structures scheme drawing of an embodiment of the utility model

The title of each label is respectively among the figure: 1-motor, 2-roller shaft, 3a-finishing bevel gear cuter, 3b-finishing bevel gear cuter, the rotating shaft of 3c-upper boom, the 3d-cylindrical wheel, the rotating shaft of 3e-lower beam, 3f-cylindrical wheel, 3g-sprocket wheel, 3h-anti-explosion is electromagnetic iron, the 4-cylinder, 5-steel rope, 6a-finishing bevel gear cuter, 6b-finishing bevel gear cuter, the rotating shaft of 6c-upper boom, 6d-cylindrical wheel, the rotating shaft of 6e-lower beam, 6f-cylindrical wheel, the 6g-sprocket wheel, 6h-anti-explosion is electromagnetic iron, the 7-bearing seat, 8-swings dolly, the 9-chain, 10-travel switch, 11-rope sling, 12-travel switch.

The specific embodiment

Below with reference to accompanying drawing the utility model content is described further, but actual fabrication structure of the present utility model is not limited in following embodiment.

Referring to accompanying drawing, mine winch rope-arranging mechanism described in the utility model is made up of motor 1, cylinder 4, swing dolly 8, anti-explosion is electromagnetic iron 3h, 6h, rope sling 11, rotating shaft, gear drive, chain wheel driving mechanism and travel switch 10,12 etc.Motor 1 rotates by roller shaft axle head roll 4, and the outer felt of cylinder 4 is wound with steel rope 5.Two ends are provided with anti-explosion is electromagnetic iron 3h, the swing dolly of 6h is located at cylinder 4 belows, two, the left and right sides of swing dolly 8 uprightly is set with a upper end band cylindrical wheel 3f by bearing seat 7 respectively, the lower beam rotating shaft 3e of 6f, 6e, two ends, the left and right sides at roller shaft 2 respectively are connected with a lower end band cylindrical wheel 3d by the pair of meshing bevel gear set, the upper boom rotating shaft 3c of 6d, 6c, after the anti-explosion is electromagnetic iron adhesive of swing dolly 8 one ends, then apart from the last lower beam rotating shaft of this anti-explosion is electromagnetic iron remote location with the cylindrical wheel engagement, and apart from the last lower beam rotating shaft at this anti-explosion is electromagnetic iron proximal location place with cylindrical wheel separately, according to the tube length of cylinder 4 two travel switches 10 are set at interval at swing dolly 8 end faces, 12, about two lower beam axle 3e, 6e is last by sprocket wheel 3g, 6g is set with a circle chain 9, rope sling 11 is contained in two travel switches 10 that are positioned at of chain 9, on the serobila between 12, steel rope 5 is wound on the cylinder 4 after passing rope sling 11.

The working process of this mine winch rope-arranging mechanism is such: when starting working, and at first adhesive of anti-explosion is electromagnetic iron 6h, swing dolly 8 moves right, cylindrical wheel 3d, 3f engagement, when motor 1 drove roller shaft 2 rotations, cylinder 4 rotated thereupon, and steel rope 5 can be wound on the cylinder; Meanwhile, finishing bevel gear cuter 3a will rotate synchronously with axle 2, finishing bevel gear cuter 3b and finishing bevel gear cuter 3a engagement, so finishing bevel gear cuter 3b also rotates with finishing bevel gear cuter 3a, the cylindrical wheel 3d coaxial with finishing bevel gear cuter also rotates, because cylindrical wheel 3f and cylindrical wheel 3d engagement, cylindrical wheel 3f also rotates, with the coaxial sprocket wheel 3g of cylindrical wheel 3f also along with rotation, chain drive-belt 9 and the rope sling 11 that is installed on the chain 9 move right, thereby guarantee steel rope 5 when cylinder 4 is reeled, can be closely, arrange in an orderly manner, prevent that steel rope from piling up together; When rope sling 11 contacts with right side travel switch 10, anti-explosion is electromagnetic iron 6h decontrols, anti-explosion is electromagnetic iron 3h adhesive, swing dolly 8 is moved to the left, cylindrical wheel 3f separates with 3d, cylindrical wheel 6f and 6d engagement, at this moment, conical gear 6a will drive conical gear 6b, cylindrical wheel 6d, cylindrical wheel 6f, sprocket wheel 6g rotate, and chain 9 and rope sling 11 are to left movement.

Claims (2)

1. mine winch rope-arranging mechanism, have an outside that is driven by motor (1) and be wound with the cylinder (4) of steel rope (5), it is characterized in that: be provided with two ends in cylinder (4) below anti-explosion is electromagnetic iron (3h is housed, 6h) and the swing dolly (8) that can move around along cylinder (4) rotor shaft direction, two, the left and right sides of swing dolly (8) uprightly is set with a upper end band cylindrical wheel (3f by bearing seat (7) respectively, lower beam rotating shaft (3e 6f), 6e), two ends, the left and right sides at roller shaft (2) respectively are connected with a lower end band cylindrical wheel (3d by the pair of meshing bevel gear set, upper boom rotating shaft (3c 6d), 6c), after the anti-explosion is electromagnetic iron adhesive of swing dolly (8) one ends, then apart from the last lower beam rotating shaft of this anti-explosion is electromagnetic iron remote location with the cylindrical wheel engagement, and apart from the last lower beam rotating shaft at this anti-explosion is electromagnetic iron proximal location place with cylindrical wheel separately, divide the interval that two travel switches (10 are set at swing dolly (8) end face, 12), about two lower beam rotating shaft (3e, 6e) go up by sprocket wheel (3g, 6g) be set with a circle chain (9), be positioned at two travel switches (10 at chain (9), a rope sling (11) is housed on the serobila of position 12), steel rope (5) is wound on the cylinder (4) after passing rope sling (11), when rope sling (11) with after the travel switch of a side contacts, then with the anti-explosion is electromagnetic iron adhesive of the trip switch offside, and unclamp with the anti-explosion is electromagnetic iron of the trip switch homonymy.

2. mine winch rope-arranging mechanism according to claim 1 is characterized in that: be located at the length that the spacing of swinging two travel switches (10,12) on the dolly end face equals cylinder (4).

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