CN212799436U

CN212799436U - Portable dyke consolidates hoist mechanism

Info

Publication number: CN212799436U
Application number: CN202021336351.7U
Authority: CN
Inventors: 王名海
Original assignee: Hunan Kangfei Construction Engineering Co ltd
Current assignee: Hunan Kangfei Construction Engineering Co ltd
Priority date: 2020-07-09
Filing date: 2020-07-09
Publication date: 2021-03-26
Anticipated expiration: 2030-07-09

Abstract

The utility model provides a hoist mechanism is consolidated to portable dyke, it is including the guide rail, the guide rail is two, it is fixed through the fixed beam between two guide rails, the walking wheel is installed to the guide rail lower part, two relative one sides of guide rail are equipped with the spacing groove that the cell body is relative along length direction, be equipped with the slide between two spacing grooves, the lower one end top of slide is fixed with the bearing board, the bottom both sides of the higher one end of slide are fixed with the pulley spindle, the slide bottom is equipped with the gear groove of indent, the guide rail top is bent and is formed with the discharge end, the bearing frame is installed to the junction bottom of discharge end and guide rail, movable mounting has the rotation axis between two bearing frames, install the wire reel on the rotation axis, there is. The utility model discloses rational in infrastructure, promote effectual, the transportation convenience after adopting above-mentioned scheme.

Description

Portable dyke consolidates hoist mechanism

Technical Field

The utility model belongs to the technical field of the dyke equipment technique and specifically relates to indicate a hoist mechanism is consolidated to portable dyke.

Background

The existing dyke reinforcements are mostly lifted to the top of the dyke manually, and the mode is high in manual labor intensity and low in working efficiency.

Disclosure of Invention

An object of the utility model is to overcome the not enough of prior art, provide a hoist mechanism is consolidated to portable dyke rational in infrastructure, that promote effectual, the transportation is convenient.

In order to achieve the above object, the present invention provides a technical solution: a movable embankment reinforcement lifting mechanism comprises two guide rails, wherein the two guide rails are fixed through a fixing beam, the two fixed guide rails are parallel to each other, walking wheels are installed on the lower portions of the guide rails, limiting grooves with opposite groove bodies are formed in the opposite sides of the two guide rails along the length direction, a sliding seat is arranged between the two limiting grooves, a bearing plate is fixed at the top of the lower end of the sliding seat, power shafts are fixed on the two sides of the bottom of the sliding seat below the bearing plate, pulley shafts are fixed on the two sides of the bottom of the higher end of the sliding seat, pulleys are installed at the two ends of the power shafts and the two ends of the pulley shafts, the pulleys are movably installed in the limiting grooves, a concave gear groove is formed in the bottom of the sliding seat, the length direction of the gear groove is consistent with the conveying direction of the guide rails, a rack is arranged in the gear, a rotating shaft is movably arranged between the two bearing blocks, a rotating gear is fixedly arranged on the rotating shaft, a rotating motor is arranged below the rotating shaft, a power gear is arranged on a transmission shaft of the rotating motor, the power gear is meshed with the rotating gear, a wire spool is arranged on the rotating shaft, a pull rope is wound on the wire spool, and the pull rope is connected with the power shaft.

The included angle between the discharging end and the guide rail is 130-150 degrees, and the discharging end and the guide rail are in arc smooth transition.

A motor mounting plate is fixed between the upper parts of the two guide rails, and a rotating motor is mounted on the motor mounting plate; the rack is formed by integrally extending a sliding seat in a gear groove.

The two wire reels are respectively fixedly sleeved on the rotating shafts on two sides of the rotating gear.

After the scheme is adopted, a certain distance is reserved between the travelling wheels and the end part of the guide rail, when the travelling wheels move, the end part of the guide rail is lifted off, the guide rail is moved to the position of an embankment through the travelling wheels, the discharging end is lifted, the discharging end is put on the top of the embankment, the travelling wheels after lap joint are lifted off, the end part of the guide rail is lifted, a reinforcement is placed on the bearing plate and leans against the slide seat, after the reinforcement is placed, the rotating motor rotates forwards to drive the power gear to rotate forwards through the transmission shaft, the power gear drives the rotating gear to rotate, the rotating gear drives the rotating shaft to rotate synchronously, the rotating shaft drives the wire reel to roll the pulling rope, the pulling rope pulls the slide seat to slide upwards, the slide seat drives the bearing plate to rise, the reinforcement rises synchronously under the driving of the slide seat and the bearing plate, when the slide seat completely turns, at the moment, the reinforcement is supported by the sliding seat, then the reinforcement is unloaded from the sliding seat, after unloading is completed, the rotating motor rotates reversely to drive the power gear to rotate reversely through the transmission shaft, the power gear drives the rotating gear to rotate, the rotating gear drives the rack to move towards the direction of the guide rail, the rack drives the sliding seat to move along the guide rail, meanwhile, the rotating shaft drives the wire winding disc to rotate to release the rope, when the rack is separated from the rotating gear, the sliding seat slides downwards under the self-gravity to reset, and the secondary work can be carried out after resetting; after the lifting work is finished, the discharging end is moved away from the dike and moved downwards to be overlapped on an external trailer, the bottom of the traveling wheel is abutted against the ground after the overlapping, and the bottom of the guide rail is tilted upwards to leave the ground by taking the traveling wheel as the center, so that the whole device can be transported or transferred; the utility model discloses rational in infrastructure, promote effectual, the transportation convenience after adopting above-mentioned scheme.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a side view of the present invention.

Fig. 3 is a cross-sectional view of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 3, the mobile embankment reinforcement lifting mechanism of this embodiment includes two guide rails 1, two guide rails 1 are fixed by a fixing beam 2, the two fixed guide rails 1 are parallel to each other, a traveling wheel 3 is installed on the lower portion of the guide rail 1, a limiting groove 4 with opposite groove bodies is installed on one side of each of the two guide rails 1 along the length direction, a sliding seat 5 is installed between the two limiting grooves 4, a supporting plate 19 is fixed on the top of the lower end of the sliding seat 5, power shafts 6 are fixed on two sides of the bottom of the sliding seat 5 below the supporting plate 19, pulley shafts 7 are fixed on two sides of the bottom of the upper end of the sliding seat 5, pulleys 8 are installed on two ends of the power shafts 6 and the pulley shafts 7, the pulleys 8 are movably installed in the limiting grooves 4, a concave gear groove 9 is installed on the bottom of the sliding seat 5, the length direction of the gear groove 9 is the same as the conveying direction of, a motor mounting plate 18 is fixed between the upper parts of the two guide rails 1, and a rotating motor 14 is mounted on the motor mounting plate 18; the rack 10 is formed by integrally extending the carriage 5 in the gear groove 9. The top of the guide rail 1 is bent to form a discharging end 20, the included angle between the discharging end 20 and the guide rail 1 is 130-150 degrees, and arc smooth transition is adopted between the discharging end 20 and the guide rail 1. The bottom of the joint of the discharging end 20 and the guide rail 1 is provided with a bearing block 11, a rotating shaft 12 is movably arranged between the two bearing blocks 11, a rotating gear 13 is fixedly arranged on the rotating shaft 12, a rotating motor 14 is arranged below the rotating shaft 12, a power gear 15 is arranged on a transmission shaft of the rotating motor 14, the power gear 15 is meshed with the rotating gear 13, a wire spool 16 is arranged on the rotating shaft 12, a pull rope 17 is wound on the wire spool 16, and the pull rope 17 is connected with the power shaft 6. Two wire reels 16 are respectively fixed and sleeved on the rotating shafts 12 at two sides of the rotating gear 13.

After the scheme is adopted, a certain distance is reserved between the travelling wheels and the end part of the guide rail, when the travelling wheels move, the travelling wheels touch the ground, the end part of the guide rail leaves the ground, the guide rail is moved to the position of the dike through the travelling wheels, the discharging end is lifted, the discharging end is lapped on the top of the dike, the overlapped travelling wheels touch the ground, the end part of the guide rail touches the ground, the reinforcement is placed on the bearing plate and leans against the sliding seat, after the reinforcement is placed, the rotating motor rotates forwards to drive the power gear to rotate forwards through the transmission shaft, the power gear drives the rotating gear to rotate, the rotating gear drives the rotating shaft to rotate synchronously, the rotating shaft drives the wire winding disc to rotate to wind the pulling rope, the pulling rope pulls the sliding seat to slide upwards, the bearing plate is driven by the sliding seat to ascend synchronously under the driving of the sliding seat and the bearing plate, at the moment, the reinforcement is supported by the sliding seat, then the reinforcement is unloaded from the sliding seat, after unloading is completed, the rotating motor rotates reversely to drive the power gear to rotate reversely through the transmission shaft, the power gear drives the rotating gear to rotate, the rotating gear drives the rack to move towards the direction of the guide rail, the rack drives the sliding seat to move along the guide rail, meanwhile, the rotating shaft drives the wire winding disc to rotate to release the rope, when the rack is separated from the rotating gear, the sliding seat slides downwards under the self-gravity to reset, and the secondary work can be carried out after resetting; after the lifting work is finished, the discharging end is moved away from the dike and moved downwards to be overlapped on an external trailer, the bottom of the traveling wheel is abutted against the ground after the overlapping, and the bottom of the guide rail is tilted upwards to leave the ground by taking the traveling wheel as the center, so that the whole device can be transported or transferred; this embodiment is rational in infrastructure, promote effectual, the transportation convenience after adopting above-mentioned scheme.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a hoist mechanism is consolidated to portable dyke, it includes guide rail (1), its characterized in that: the two guide rails (1) are fixed through a fixed beam (2), the two fixed guide rails (1) are parallel to each other, traveling wheels (3) are installed on the lower portions of the guide rails (1), limiting grooves (4) with opposite groove bodies are formed in one opposite side of each of the two guide rails (1) along the length direction, a sliding seat (5) is arranged between the two limiting grooves (4), a bearing plate (19) is fixed to the top of the lower end of the sliding seat (5), power shafts (6) are fixed to two sides of the bottom of the sliding seat (5) below the bearing plate (19), pulley shafts (7) are fixed to two sides of the bottom of the higher end of the sliding seat (5), pulleys (8) are installed on two ends of each of the power shafts (6) and the pulley shafts (7), the pulleys (8) are movably installed in the limiting grooves (4), an inwards-concave gear groove (9) is formed in the bottom of the sliding seat (5), the length direction of each gear groove, be equipped with rack (10) in gear groove (9) that are located power shaft (6) one end, guide rail (1) top is bent and is formed with discharge end (20), bearing frame (11) are installed to the junction bottom of discharge end (20) and guide rail (1), movable mounting has rotation axis (12) between two bearing frame (11), fixed mounting has rotating gear (13) on rotation axis (12), rotating electrical machines (14) are installed to rotation axis (12) below, install power gear (15) on the transmission shaft of rotating electrical machines (14), power gear (15) and rotating gear (13) mesh mutually, install wire reel (16) on rotation axis (12), it has stay cord (17) to wind on wire reel (16), stay cord (17) are connected with power shaft (6).

2. A mobile embankment reinforcement lifting mechanism according to claim 1, wherein: the included angle between the discharging end (20) and the guide rail (1) is 130-150 degrees, and the discharging end (20) and the guide rail (1) are in arc smooth transition.

3. A mobile embankment reinforcement lifting mechanism according to claim 1, wherein: a motor mounting plate (18) is fixed between the upper parts of the two guide rails (1), and a rotating motor (14) is mounted on the motor mounting plate (18); the rack (10) is formed by integrally extending the sliding seat (5) in the gear groove (9).

4. A mobile embankment reinforcement lifting mechanism according to claim 1, wherein: two wire reels (16) are respectively fixedly sleeved on the rotating shafts (12) at two sides of the rotating gear (13).