CN212799360U - Dyke reinforcing building block conveying device - Google Patents

Abstract

The utility model provides a dyke reinforcing building block conveyer, which comprises a hoisting component and a conveying component, wherein the hoisting component comprises a suspension arm and a supporting arm, the bottom of a transfer frame is provided with a first travelling wheel, a suspension arm seat is fixed on the upper part of the front side of the transfer frame, one end of the suspension arm is movably hinged on the suspension arm seat, and the other end of the suspension arm is inclined and suspended to form a suspension end; the top of the supporting arm is connected with the middle part of the suspension arm, the bottom of the supporting arm is connected with the lower part of the front side of the transfer gantry, the bottom of the suspension arm is inwards concave along the length direction to form an n-shaped groove, a guide wheel is arranged in the n-shaped groove positioned at the end part of the suspension end, a winding wheel is arranged at the other end of the n-shaped groove, a lifting rope is wound on the winding wheel, the lifting rope is wound around the guide wheel and is downwards connected with a lifting hook, and a winding motor is arranged. Low in labor strength, excellent in use effect, the lifting speed after this scheme of adoption are fast.

Description

Dyke reinforcing building block conveying device

Technical Field

The utility model belongs to the technical field of the dyke technique and specifically relates to indicate a dyke reinforcement building block conveyer.

Background

When the traditional dike is reinforced, the dike is manually lifted and then climbed to the dike, the labor intensity is high, the efficiency is low, a crane is adopted, but the crane is large in size and inconvenient to hoist.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a piece conveyer is built in dyke reinforcement that low in labor strength, excellent in use effect, hoisting speed are fast.

In order to achieve the above object, the present invention provides a technical solution: a dyke reinforcing building block conveying device comprises a lifting assembly and a conveying assembly, wherein the lifting assembly comprises a suspension arm and a supporting arm, a first travelling wheel is mounted at the bottom of a transfer frame, a suspension arm seat is fixed at the upper part of the front side of the transfer frame, one end of the suspension arm is movably hinged to the suspension arm seat, and the other end of the suspension arm is obliquely suspended to form a suspension end; the top of the supporting arm is connected with the middle part of the suspension arm, the bottom of the supporting arm is connected with the lower part of the front side of the transfer frame, the bottom of the suspension arm is inwards concave along the length direction to form an n-shaped groove, a guide wheel is arranged in the n-shaped groove positioned at the end part of the suspension end, a winding wheel is arranged at the other end of the n-shaped groove, a lifting rope is wound on the winding wheel, the lifting rope is wound around the guide wheel and is downwards connected with a lifting hook, a winding motor is arranged on the outer side wall of one side of the suspension.

The conveying assembly comprises guide rails, the guide rails are two, the two guide rails are fixed through a fixed beam, second walking wheels are installed on the lower portions of the guide rails, a sliding seat is movably installed between the two guide rails, a bearing plate is fixed to the top of the lower end of the sliding seat, power shafts are fixed to the two sides of the bottom of the sliding seat below the bearing plate, pulley shafts are fixed to the two sides of the bottom of the higher end of the sliding seat, pulleys are installed on the two ends of the power shafts and the two ends of the pulley shafts, a discharging end is formed by bending the top of the guide rails, a rotating gear is installed at the bottom of the discharging end and driven by a rotating motor to rotate, a wire spool is installed on a second.

The slide bottom be equipped with the gear groove of indent, the length direction in gear groove is unanimous with the direction of delivery of guide rail, is located the gear inslot of power axle one end and is equipped with the rack, the bearing frame is installed to the junction bottom of unloading end and guide rail, movable mounting has the second rotation axis between two bearing frames, fixed mounting has the swing pinion on the second rotation axis, the rotating electrical machines is installed to second rotation axis below, install power gear on the transmission shaft of swing electrical machines, power gear meshes with the swing pinion mutually.

The opposite sides of the two guide rails are provided with limit grooves with opposite groove bodies along the length direction, and the pulleys are positioned in the corresponding limit grooves.

The middle rotating frame is characterized in that supporting legs are installed on the lower portion of the front side of the middle rotating frame, a handle is formed by bending the top of the middle rotating frame backwards, a guide shaft is arranged in an n-shaped groove in the end portion of the suspension end, the two ends of the guide shaft are fixed on suspension arms on the two sides of the n-shaped groove, a guide wheel is movably installed on the guide shaft, a first rotating shaft is arranged at the other end of the n-shaped groove, the two ends of the first rotating shaft are movably installed on the suspension arms on the two sides of the n-shaped groove through bearings, a winding wheel is fixed on the first rotating.

The supporting arm is made of a telescopic cylinder, a hinged support is fixed in the middle of the suspension arm, the top of the supporting arm is movably hinged to the hinged support through a hinged shaft, a fixed shaft is fixed on the rotating frame above the supporting leg, a shaft sleeve is fixed at the bottom of the supporting arm, and the shaft sleeve is movably sleeved on the fixed shaft.

By adopting the above technical scheme, the utility model, through driving the lifting hook around the coil motor and building the piece with the concrete and hang and carry to the slide on, drive the slide through the guide rail and rise to the dyke top, low in labor strength, excellent in use effect, the hoisting speed after this scheme of adoption is fast.

Drawings

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

Fig. 2 is a schematic view of the structure of the rotating shaft of the present invention.

Fig. 3 is a schematic view of the conveying assembly of the present invention.

Fig. 4 is a side view of the transfer assembly of the present invention.

Fig. 5 is a cross-sectional view of a transfer assembly 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 5, the embankment reinforcement building block conveying device according to the embodiment includes a lifting assembly and a conveying assembly, wherein the lifting assembly includes a boom 3 and a support arm 4, a first traveling wheel 5 is installed at the bottom of a transfer frame 1, a boom base 2 is fixed at the upper portion of the front side of the transfer frame 1, one end of the boom 3 is movably hinged to the boom base 2, and the other end of the boom 3 is obliquely suspended to form a suspension end; the top of the supporting arm 4 is connected with the middle part of the suspension arm 3, the bottom of the supporting arm 4 is connected with the lower part of the front side of the transfer frame 1, the bottom of the suspension arm 3 is inwards concave along the length direction to form an n-shaped groove 7, a guide wheel 8 is arranged in the n-shaped groove 7 positioned at the end part of the suspension end, a winding wheel 9 is arranged at the other end of the n-shaped groove 7, a lifting rope 10 is wound on the winding wheel 9, the lifting rope 10 bypasses the guide wheel 8 and is downwards connected with a lifting hook 11, a winding motor 12 is arranged on the outer side wall of one side of the suspension arm 3, and the winding wheel.

The conveying assembly comprises guide rails 101, the two guide rails 101 are arranged, the two guide rails 101 are fixed through a fixed beam 102, second traveling wheels 103 are installed on the lower portions of the guide rails 101, a sliding seat 105 is movably installed between the two guide rails 101, a bearing plate 1019 is fixed to the top of the lower end of the sliding seat 105, power shafts 106 are fixed to the two sides of the bottom of the sliding seat 105 below the bearing plate 1019, pulley shafts 107 are fixed to the two sides of the bottom of the higher end of the sliding seat 105, pulleys 108 are installed at the two ends of each of the power shafts 106 and the pulley shafts 107, limiting grooves 104 with opposite groove bodies are formed in the opposite sides of the two guide rails 101 in the length direction, and. The top of the guide rail 101 is bent to form a discharging end 1020, the bottom of the discharging end 1020 is provided with a rotating gear 1013, the rotating gear 1013 is driven by a rotating motor 1014 to rotate, a wire spool 1016 is arranged on the second rotating shaft 1012, a pulling rope 1017 is wound on the wire spool 1016, and the pulling rope 1017 is connected with the power shaft 106.

The bottom of the sliding seat 105 is provided with a concave gear groove 109, the length direction of the gear groove 109 is consistent with the conveying direction of the guide rail 101, a rack 1010 is arranged in the gear groove 109 at one end of the power shaft 106, bearing blocks 1011 are arranged at the bottom of the joint of the discharging end 1020 and the guide rail 101, a second rotating shaft 1012 is movably arranged between the two bearing blocks 1011, a rotating gear 1013 is fixedly arranged on the second rotating shaft 1012, a rotating motor 1014 is arranged below the second rotating shaft 1012, a power gear 1015 is arranged on a transmission shaft of the rotating motor 1014, and the power gear 1015 is meshed with the rotating gear 1013.

The lower part of the front side of the middle rotating frame 1 is provided with a supporting leg 6, the top of the middle rotating frame 1 is bent backwards to form a handle 13, a guide shaft 15 is arranged in an n-shaped groove 7 positioned at the end part of the suspension end, two ends of the guide shaft 15 are fixed on the suspension arms 3 at two sides of the n-shaped groove 7, a guide wheel 8 is movably arranged on the guide shaft 15, the other end of the n-shaped groove 7 is provided with a first rotating shaft 16, two ends of the first rotating shaft 16 are movably arranged on the suspension arms 3 at two sides of the n-shaped groove 7 through bearings, a winding wheel 9 is fixed on the first rotating shaft 16, and one end of the first rotating shaft 16 penetrates through. The supporting arm 4 is made of a telescopic cylinder, a hinged support 17 is fixed in the middle of the suspension arm 3, the top of the supporting arm 4 is movably hinged to the hinged support 17 through a hinged shaft, a fixed shaft 14 is fixed on the middle rotating frame 1 above the supporting leg 6, a shaft sleeve 18 is fixed at the bottom of the supporting arm 4, and the shaft sleeve 18 is movably sleeved on the fixed shaft 14.

The storage battery is connected with the winding motor and the supporting arm through the conventional technology, when the concrete building block is transferred, the handle is pressed downwards to drive the bottom of the transfer frame to upwarp, the transfer frame drives the supporting legs to rise away from the ground, the handle is pushed to move the transfer frame to the concrete building block placing area, the lifting hook is driven by the transfer frame to move downwards to the upper part of the lifting ring of the concrete building block, the handle is lifted upwards, the supporting legs fall to contact with the ground, the contacted transfer frame is supported by the supporting legs and the walking wheels, the winding motor rotates forwards to drive the rotating shaft to rotate forwards through the transmission shaft, the rotating shaft drives the winding wheel to unwind the rope, the lifting hook descends under the self-gravity, when the lifting hook descends to the lifting ring of the concrete building block, the lifting hook is hooked on the lifting ring of the concrete building block, the winding motor rotates backwards to drive the rotating shaft to rotate backwards through the transmission shaft, the rotating shaft drives the winding wheel to, the lifting rope drives the lifting hook to lift the concrete building block, when the concrete building block leaves the ground, the handle is pressed downwards to enable the bottom of the transfer rack to upwarp, the transfer rack further drives the supporting legs to ascend to leave the ground, the handle is pushed to drive the transfer rack to move to the slide seat, the lifting hook is put down, the concrete building block is put on the slide seat, after the concrete building block is put on the slide seat, 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 slide seat to slide upwards, the slide seat drives the bearing plate to ascend synchronously, when the slide seat completely rotates to the discharging end, the rack is meshed with the rotating gear, at the moment, the concrete building block is supported by the slide seat and then the concrete building block is unloaded from the slide seat, after unloading is finished, 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 guide rail, the rack drives the sliding seat to move along the guide rail, meanwhile, the rotating shaft drives the wire spool to rotate to pay off the pulling rope, when the rack is separated from the rotating gear, the sliding seat slides downwards under self gravity to reset, and the pulling rope can work again after resetting; after the completion promotes work, to unload the end and remove and the lapse from the dyke on the outside trailer, the walking wheel bottom is contradicted with ground after the overlap joint, and the guide rail bottom uses the walking wheel to upwards perk as the center and leaves ground, can carry out transportation or transfer to whole device.

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 (6)

1. The utility model provides a dyke reinforcement building block conveyer which characterized in that: the lifting mechanism comprises a lifting assembly and a conveying assembly, wherein the lifting assembly comprises a lifting arm (3) and a supporting arm (4), a first travelling wheel (5) is installed at the bottom of a middle rotating frame (1), a lifting arm seat (2) is fixed at the upper part of the front side of the middle rotating frame (1), one end of the lifting arm (3) is movably hinged to the lifting arm seat (2), and the other end of the lifting arm (3) is obliquely suspended to form a suspension end; support arm (4) top is connected with davit (3) middle part, support arm (4) bottom is connected in transfer frame (1) front side lower part, davit (3) bottom forms n groove (7) along the length direction indent, be located n groove (7) of hanging in midair the end tip and be equipped with leading wheel (8), be equipped with in the n groove (7) other end and wind reel (9), it has lifting rope (10) to wind on reel (9), lifting rope (10) are walked around leading wheel (8) and are connected with lifting hook (11) downwards, install on the lateral wall of davit (3) one of them side and wind reel motor (12), it drives the operation by winding motor (12) to wind reel (9).

2. A embankment reinforcement block transfer device according to claim 1, wherein: the conveying assembly comprises guide rails (101), the two guide rails (101) are fixed by a fixed beam (102), second traveling wheels (103) are installed on the lower portions of the guide rails (101), a sliding seat (105) is movably installed between the two guide rails (101), a bearing plate (1019) is fixed to the top of the lower end of the sliding seat (105), power shafts (106) are fixed to two sides of the bottom of the sliding seat (105) below the bearing plate (1019), pulley shafts (107) are fixed to two sides of the bottom of the higher end of the sliding seat (105), pulleys (108) are installed at two ends of each of the power shafts (106) and the pulley shafts (107), a discharging end (1020) is formed by bending the top of each guide rail (101), a rotating gear (1013) is installed at the bottom of the discharging end (1020), the rotating gear (1013) is driven by a rotating motor (1012) to rotate, a wire spool (1016) is installed on the second rotating shaft (1012), and a pull rope (1017, the pull rope (1017) is connected with the power shaft (106).

3. A embankment reinforcement block transfer device according to claim 1, wherein: slide (105) bottom is equipped with concave gear groove (109), the length direction of gear groove (109) is unanimous with the direction of delivery of guide rail (101), be equipped with rack (1010) in gear groove (109) that are located power shaft (106) one end, bearing frame (1011) are installed to the junction bottom of discharge end (1020) and guide rail (101), movable mounting has second rotation axis (1012) between two bearing frame (1011), fixed mounting has rotating gear (1013) on second rotation axis (1012), rotating electrical machines (1014) are installed to second rotation axis (1012) below, install power gear (1015) on the transmission shaft of rotating electrical machines (1014), power gear (1015) and rotating gear (1013) mesh mutually.

4. A embankment reinforcement block transfer device according to claim 1, wherein: limiting grooves (104) with opposite groove bodies are formed in the opposite sides of the two guide rails (101) along the length direction, and the pulleys (108) are located in the corresponding limiting grooves (104).

5. A embankment reinforcement block transfer device according to claim 1, wherein: supporting legs (6) are installed on the lower portion of the front side of a middle rotating frame (1), a handle (13) is formed by bending the top of the middle rotating frame (1) backwards, a guide shaft (15) is arranged in an n-shaped groove (7) located at the end portion of a hanging end, two ends of the guide shaft (15) are fixed on suspension arms (3) on two sides of the n-shaped groove (7), a guide wheel (8) is movably installed on the guide shaft (15), a first rotating shaft (16) is arranged at the other end of the n-shaped groove (7), two ends of the first rotating shaft (16) are movably installed on the suspension arms (3) on two sides of the n-shaped groove (7) through bearings, a winding wheel (9) is fixed on the first rotating shaft (16), and one end of the first rotating shaft (16) penetrates through the suspension arms (3).

6. A embankment reinforcement block transfer device according to claim 1, wherein: the supporting arm (4) is made of a telescopic cylinder, a hinged support (17) is fixed in the middle of the suspension arm (3), the top of the supporting arm (4) is movably hinged to the hinged support (17) through a hinged shaft, a fixed shaft (14) is fixed on the rotating frame (1) above the supporting leg (6), a shaft sleeve (18) is fixed at the bottom of the supporting arm (4), and the shaft sleeve (18) is movably sleeved on the fixed shaft (14).

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