CN217250863U - Oil removing device for steel wire rope of mine hoist - Google Patents

Abstract

The utility model relates to a mine winder wire rope deoiling device technical field specifically is a mine winder wire rope deoiling device, retrieve the box including the greasy dirt, two sets of supports of box bilateral symmetry connection are retrieved to the greasy dirt, the box top is retrieved to the greasy dirt sets up and holds the receiving box, it has the cleaning mechanism of rotation function to set up on the receiving box, cleaning mechanism top sets up toper cover two, when two gears rotate, two gears make a set of conical gear rotate through one, a set of conical gear makes two rotations of axle through another group conical gear, two drive brushes of axle rotate, consequently the brush is when rotating around wire rope, brush self produces rotatoryly, thereby increase brush and wire rope's friction dynamics, make the greasy dirt on the wire rope more clean by the clearance.

Description

Oil removing device for steel wire rope of mine hoist

Technical Field

The utility model relates to a mine winder wire rope deoiling device technical field specifically is a mine winder wire rope deoiling device.

Background

The steel wire rope is a spiral steel wire bundle formed by twisting steel wires with mechanical properties and geometric dimensions meeting requirements according to a certain rule, the steel wire rope consists of the steel wires, a rope core and lubricating grease, and oiling is a necessary process for all steel wire ropes.

When current wire rope deoiling dirt, the workman at first can twine wire rope on winding mechanism, then wraps wire rope tightly through artifical handheld rag, stimulates wire rope, wipes away the greasy dirt on wire rope surface through the rag, and such method not only need incessant change rag, and is inefficient simultaneously, for this reason, the utility model provides a mine winder wire rope deoiling device is used for solving above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mine winder wire rope deoiling device to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a steel wire rope oil removing device for a mine hoist comprises an oil stain recovery box, wherein two groups of supports are symmetrically connected to two sides of the oil stain recovery box, a bearing box is arranged above the oil stain recovery box, a cleaning mechanism with a rotating function is arranged on the bearing box, and a conical sleeve II is arranged above the cleaning mechanism;

the cleaning mechanism comprises a transmission pipe, a bearing is arranged on the transmission pipe, the bearing is embedded into a gear sleeve, one end of the transmission pipe is connected with a worm wheel, the other end of the transmission pipe is connected with a first gear, the worm wheel is meshed with a worm, four groups of transmission mechanisms are arranged between the first gear and the gear sleeve at equal angles, a sliding sleeve is arranged on the gear sleeve in a sleeved mode, and four groups of bearing plates are arranged on the sliding sleeve at equal angles.

Preferably, the transmission mechanism comprises a shell, the shell is connected with the bearing plate, two groups of bevel gears are arranged in the shell and meshed with each other, one group of bevel gears are connected with the shaft I, the shaft I is connected with the gear II, the other group of bevel gears is connected with the shaft II, and the shaft II is connected with the brush.

Preferably, the middle part of the receiving box is provided with a first conical sleeve, the bottom of the receiving box is connected with four groups of bent pipes at equal angles, and the receiving box, the gear sleeve and the second conical sleeve are fixedly connected with the support.

Preferably, two sets of bearings are arranged at two ends of the worm, the bearings are embedded into a support arranged at the bottom of the gear sleeve, the gear sleeve and the first gear are both meshed with the second gear, and the sliding sleeve is rotatably connected with the gear sleeve.

Preferably, the first shaft and the second shaft are both provided with bearings, and the bearings are embedded into the shell.

Preferably, steel wire ropes are arranged among the four groups of brushes.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the steel wire rope is pulled to enable the steel wire rope to penetrate through the four groups of hairbrushes, the worm is driven to rotate through the motor, the worm enables the transmission pipe to rotate through the worm gear, the transmission pipe enables the second gear to rotate through the first gear, the second gear rotates along the gear sleeve, the second gear drives the whole group of transmission mechanism to rotate, the four groups of hairbrushes rotate around the steel wire rope, and therefore the steel wire rope is cleaned;

2. a gear II makes a set of bevel gear rotate through a shaft I, a set of bevel gear makes a shaft II rotate through another set of bevel gear, and a shaft II drives the brush to rotate, so that the brush rotates around the steel wire rope, the brush self rotates, friction force between the brush and the steel wire rope is increased, and oil stains on the steel wire rope are cleaned up more cleanly.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the cleaning mechanism of the present invention;

FIG. 3 is a partial cross-sectional view of the structural cleaning mechanism of the present invention;

fig. 4 is a combined cross-sectional view of the structure transmission pipe, the first gear and the transmission mechanism of the utility model.

In the figure: 1. an oil stain recovery box; 2. a support; 3. a receiving box; 4. bending the pipe; 5. a first conical sleeve; 6. a cleaning mechanism; 7. a second conical sleeve; 8. a wire rope; 601. a drive tube; 602. a worm gear; 603. a gear sleeve; 604. a sliding sleeve; 605. a worm; 606. a first gear; 607. a transmission mechanism; 608. a bearing plate; 6071. a second gear; 6072. a first shaft; 6073. a bevel gear; 6074. a second shaft; 6075. a brush; 6076. a housing.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: a steel wire rope oil removing device of a mine hoist comprises an oil stain recovery box 1, two groups of brackets 2 are symmetrically connected to two sides of the oil stain recovery box 1, a bearing box 3 is arranged above the oil stain recovery box 1, a cleaning mechanism 6 with a rotating function is arranged on the bearing box 3, a conical sleeve II 7 is arranged above the cleaning mechanism 6, the cleaning mechanism 6 comprises a transmission pipe 601, a bearing is arranged on the transmission pipe 601, the bearing is embedded into a gear sleeve 603, one end of the transmission pipe 601 is connected with a worm wheel 602, the other end of the transmission pipe 601 is connected with a gear I606, the worm wheel 602 is meshed with a worm 605, four groups of transmission mechanisms 607 are arranged between the gear I606 and the gear sleeve 603 at equal angles, a sliding sleeve 604 is sleeved on the gear sleeve 603, four groups of bearing plates 608 are arranged at equal angles on the sliding sleeve 604, a conical sleeve I5 is arranged in the middle part of the bearing box 3, four groups of bent pipes 4 are connected at equal angles at the bottom of the bearing box 3, the bearing box 3 and the gear sleeve 603, the second conical sleeves 7 are fixedly connected with the support 2. Two groups of bearings are arranged at two ends of a worm 605, the bearings are embedded into a support arranged at the bottom of a gear sleeve 603, the gear sleeve 603 and a gear 606 are both meshed with a gear II 6071, a sliding sleeve 604 is rotatably connected with the gear sleeve 603, when oil stain removal is required to be carried out on a steel wire rope 8, firstly, a winding mechanism for winding the steel wire rope 8 is fixed at a high position, then, an oil removing device is fixed under the winding mechanism, the steel wire rope 8 is pulled to enable the steel wire rope 8 to penetrate through a through hole arranged at the bottom of a conical sleeve II 7, the oil stain on the surface of the steel wire rope 8 is scraped by the through hole, meanwhile, the scraped oil stain is retained in the conical sleeve II 7, then, the steel wire rope 8 is continuously pulled to enable the steel wire rope 8 to penetrate through four groups of hairbrushes 6075, the worm 605 is driven to rotate by a motor, the worm 605 enables a transmission pipe 601 to rotate through a worm wheel 602, the transmission pipe 601 enables the gear II 6071 to rotate through the gear I606, the gear II 6071 rotates to enable the gear 6071 to rotate along the gear sleeve 603, therefore, the second gear 6071 drives the whole set of transmission mechanism 607 to rotate, the four sets of brushes 6075 rotate around the steel wire rope 8, the steel wire rope 8 is cleaned, the steel wire rope 8 continues to move downwards, the steel wire rope 8 penetrates through the first conical sleeve 5, the residual oil stain on the surface of the steel wire rope 8 is removed through the first conical sleeve 5, and meanwhile, the oil stain falls into the receiving box 3 and flows into the oil stain recovery box 1 through the bent pipe 4.

The transmission mechanism 607 includes a housing 6076, the housing 6076 is connected with a receiving plate 608, two sets of bevel gears 6073 are arranged in the housing 6076, the two sets of bevel gears 6073 are engaged, one set of bevel gears 6073 is connected with a first shaft 6072, the first shaft 6072 is connected with a second shaft 6071, the other set of bevel gears 6073 is connected with a second shaft 6074, the second shaft 6074 is connected with a brush 6075, the first shaft 6072 and the second shaft 6074 are both provided with bearings, the bearings are embedded in the housing 6076, and a steel wire rope 8 is arranged between the four sets of brushes 6075, wherein when the second shaft 6071 rotates, the second shaft 6071 rotates the second shaft 6073 through the first shaft 6072, the second shaft 6074 rotates through the other set of bevel gears 6073, the second shaft 6074 drives the brush 6075 to rotate, so that when the brush 6075 rotates around the steel wire rope 8, the brush 6075 rotates by itself, thereby increasing the friction force between the brush 6075 and the steel wire rope 8, and cleaning oil stains on the steel wire rope 8 are cleaner.

The working principle is as follows: in the using process, the steel wire rope 8 is pulled to enable the steel wire rope 8 to penetrate through a through hole arranged at the bottom of the conical sleeve II 7, then the steel wire rope 8 is continuously pulled to enable the steel wire rope 8 to penetrate through the four groups of brushes 6075, the worm 605 is driven by the motor to rotate, the worm 605 enables the transmission pipe 601 to rotate through the worm wheel 602, the transmission pipe 601 enables the gear II 6071 to rotate through the gear I606, the gear II 6071 rotates to enable the gear II 6071 to rotate along the gear sleeve 603, so that the gear II 6071 drives the whole group transmission mechanism 607 to rotate, the four groups of brushes 6075 rotate around the steel wire rope 8, meanwhile, the gear II 6071 enables the group of conical gears 6073 to rotate through the shaft I6072, the group of conical gears 6073 enables the shaft II 6074 to rotate through the other group of conical gears 6073, the shaft II 6074 drives the brushes 6075 to rotate, the steel wire rope 8 continuously moves downwards, the steel wire rope 8 penetrates through the conical sleeve I5, oil stains remained on the surface of the steel wire rope 8 are removed through the conical sleeve I5, meanwhile, the oil stain falls into the receiving box 3 and flows into the oil stain recovery box 1 through the elbow 4.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a mine winder wire rope deoiling device, retrieves box (1) including the greasy dirt, box (1) two sets of supports of bilateral symmetry connection (2) are retrieved to the greasy dirt, and box (1) top is retrieved to the greasy dirt sets up and holds box (3), its characterized in that: a cleaning mechanism (6) with a rotating function is arranged on the receiving box (3), and a second conical sleeve (7) is arranged above the cleaning mechanism (6);

clean mechanism (6) are including driving pipe (601), set up the bearing on driving pipe (601), bearing embedding tooth cover (603), worm wheel (602) is connected to driving pipe (601) one end, and driving pipe (601) other end connects gear (606), worm wheel (602) meshing worm (605), gear (606) and tooth cover (603) between equal angle set up four sets of drive mechanism (607), sliding sleeve (604) are established to the cover on tooth cover (603), equal angle set up four sets of accept board (608) on sliding sleeve (604).

2. The oil removing device for the steel wire rope of the mine hoist according to claim 1, characterized in that: drive mechanism (607) includes casing (6076), the board (608) is accepted in connection of casing (6076), sets up two sets of conical gear (6073) in casing (6076), two sets of conical gear (6073) meshing, a set of conical gear (6073) connecting axle one (6072), axle one (6072) connecting gear two (6071), another group conical gear (6073) connecting axle two (6074), brush (6075) is connected to axle two (6074).

3. The oil removing device for the steel wire rope of the mine hoist according to claim 1, characterized in that: the middle part sets up toper cover one (5) in holding box (3), and four return bends (4) of angle connection such as holding box (3) bottom, hold equal fixed connection support (2) of box (3), tooth cover (603), toper cover two (7).

4. The oil removing device for the steel wire rope of the mine hoist according to claim 1, characterized in that: two ends of the worm (605) are provided with two groups of bearings, the bearings are embedded into a support arranged at the bottom of the gear sleeve (603), the gear sleeve (603) and the first gear (606) are both meshed with a second gear (6071), and the sliding sleeve (604) is rotatably connected with the gear sleeve (603).

5. The oil removing device for the steel wire rope of the mine hoist according to claim 2, characterized in that: and bearings are arranged on the first shaft (6072) and the second shaft (6074) and are embedded into the shell (6076).

6. The oil removing device for the steel wire rope of the mine hoist according to claim 2, characterized in that: and a steel wire rope (8) is arranged between the four groups of brushes (6075).

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