CN216402737U - Slope construction lifting device - Google Patents

Abstract

The utility model discloses a slope construction lifting device, which comprises an installation box, a conveying groove, a belt conveying mechanism and a linear displacement mechanism, wherein the installation box is provided with a guide rail; the installation box is arranged at the bottom of the slope; the conveying groove is U-shaped and is obliquely arranged at the slope surface, a through hole is formed in the side wall, opposite to the slope surface, of the installation box, one end of the conveying groove penetrates through the through hole, extends into the installation box and is hinged with the installation box, and the other end of the conveying groove extends to the top of the slope; the belt conveying mechanism is arranged in the conveying groove; the linear displacement mechanism is arranged at the slope bottom and the slope surface, and the output end of the linear displacement mechanism is connected with the installation box and used for driving the installation box and the conveying groove to horizontally move along the length direction of the slope. The belt conveying mechanism is utilized to convey materials used in slope construction from the slope bottom to the slope top, conveying efficiency is improved, and the belt conveying mechanism can move along the length direction of the slope in the process of conveying the materials, so that the materials are conveyed from the slope bottom to different positions of the slope top, and the belt conveying mechanism has practicability.

Description

Slope construction lifting device

Technical Field

The utility model relates to the technical field of slope construction, in particular to a material lifting device for slope construction.

Background

In the process of slope construction, because the height and the gradient of the constructed slope are different, the delivery of construction materials is very inconvenient in the process of slope construction, and the construction cost is high. During construction, construction materials are usually carried to the top of the slope from the bottom of the slope by manpower, the labor intensity of workers is high, and the efficiency is not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a slope construction lifting device to solve the problems of the background technology.

The technical scheme of the utility model is as follows: a slope construction lifting device comprises an installation box, a conveying groove, a belt conveying mechanism and a linear displacement mechanism; the installation box is arranged at the bottom of the slope; the conveying groove is U-shaped and is obliquely arranged on the slope surface, a through hole is formed in the side wall, opposite to the slope surface, of the installation box, one end of the conveying groove penetrates through the through hole, extends into the installation box and is hinged with the installation box, and the other end of the conveying groove extends to the top of the slope; the belt conveying mechanism is arranged in the conveying groove; the linear displacement mechanism is arranged at the slope bottom and the slope surface, and the output end of the linear displacement mechanism is connected with the installation box and used for driving the installation box and the conveying groove to horizontally move along the length direction of the slope.

Further, the belt conveying mechanism comprises a motor, a driving shaft and a driven shaft; the motor is fixed on the side wall of the mounting box through the supporting frame, and an output shaft of the motor is horizontally arranged and is vertical to the conveying groove; one end of the driving shaft is connected with an output shaft of the motor, the other end of the driving shaft extends into the installation box and is rotatably connected with the inner wall of the installation box far away from the motor, and a driving belt pulley is fixedly sleeved on the driving shaft; the driven shaft, the level sets up inside the one end of keeping away from the install bin at the conveyer trough, and the both ends of driven shaft rotate with the both sides inner wall of conveyer trough respectively and are connected, and the suit is fixed with driven pulley on the driven shaft, driven pulley with connect through the belt between the initiative belt pulley.

Further, a plurality of conveying plates are vertically fixed to a circumferential outer surface of the belt.

Further, the vertical fixation has the sleeve on the both sides outer wall of conveyer trough, and the one end that conveyer trough was kept away from to every sleeve rotates with the inner wall of install bin respectively and is connected, two sleeves all with the coaxial setting of driving shaft, and every telescopic internal diameter all is greater than the diameter of driving shaft.

Further, the linear displacement mechanism includes two traction links, a tractor, and a guide mechanism: the two traction connecting rods are fixed on the side wall of the installation box, which is far away from the motor, are arranged in a V shape and are connected through a traction ring; the tractor is connected with the traction ring through a traction hook; the guide mechanism is arranged at the slope bottom and the slope surface, and the guide mechanism is connected with the installation box and the conveying groove respectively and used for enabling the installation box and the conveying groove to horizontally move along the length direction of the slope.

Still further, the guide mechanism includes two first mounting blocks and two second mounting blocks: the two first mounting blocks are fixed at the bottom of the slope and arranged along the length direction of the bottom of the slope, the two first mounting blocks are respectively positioned at two sides below the mounting box, a first T-shaped sliding groove is formed in the top of each first mounting block, first T-shaped sliding blocks are respectively fixed at two sides of the bottom of the mounting box, and each first T-shaped sliding block is correspondingly and slidably connected with each first T-shaped sliding groove; two second installation pieces are fixed on the slope along the length direction of the slope, the two second installation pieces are arranged in parallel with the slope, a second T-shaped sliding groove is formed in the top of each second installation piece, second T-shaped sliding blocks are fixed on two sides of the bottom of the conveying groove respectively, and each second T-shaped sliding block is in sliding connection with each second T-shaped sliding groove correspondingly.

Furthermore, the bottom of each first T-shaped sliding block is provided with a first roller which is in contact with the bottom of the first T-shaped sliding groove, the bottom of each second T-shaped sliding block is provided with a second roller which is in contact with the bottom of the second T-shaped sliding groove.

Furthermore, a feeding port is formed in the top of the installation box and is close to the through port.

Furthermore, a material blocking groove is fixed at the end part of one end, close to the installation box, of the conveying groove.

Further, a discharge outlet is formed in the bottom of one end, far away from the installation box, of the conveying groove.

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

1. according to the utility model, materials used in slope construction can be conveyed from the slope bottom to the slope top through the belt conveying mechanism, manual carrying is not required, and the conveying efficiency is improved.

2. The angle of the conveying groove can be correspondingly adjusted according to different slope inclination angles, so that the feeding adaptability is improved.

3. The conveying groove can move along the length direction of the slope under the driving of the linear displacement mechanism, so that the material is conveyed from the bottom of the slope to different positions of the top of the slope, and the conveying groove has practicability.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 according to the present invention.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings. In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature; in the description of the present invention, "a plurality" means two or more unless otherwise specified.

Examples

As shown in fig. 1 to 3, the utility model provides a slope construction lifting device, which comprises an installation box 2, a conveying groove 3, a belt conveying mechanism and a linear displacement mechanism; the installation box 2 is arranged at the slope bottom 101; the conveying trough 3 is U-shaped and is obliquely arranged on the slope surface 102, a through hole is formed in the side wall, opposite to the slope surface 102, of the installation box 2, one end of the conveying trough 3 penetrates through the through hole to extend into the installation box 2 and is hinged to the installation box 2, and the other end of the conveying trough 3 extends to the slope top 103; the belt conveying mechanism is arranged in the conveying groove 3; the linear displacement mechanism is arranged at the slope bottom 101 and the slope surface 102, and the output end of the linear displacement mechanism is connected with the installation box 2 and used for driving the installation box 2 and the conveying chute 3 to horizontally move along the length direction of the slope.

Specifically, as shown in fig. 1 and 3, the belt conveying mechanism includes a motor 4, a driving shaft 42, and a driven shaft 44; the motor 4 is fixed on the side wall of the installation box 2 through a support frame 41, and an output shaft of the motor 4 is horizontally arranged and is vertical to the conveying groove 3; one end of the driving shaft 42 is connected with an output shaft of the motor 4, the other end of the driving shaft 42 extends into the installation box 2 and is rotatably connected with the inner wall of the installation box 2 far away from the motor 4, and a driving belt pulley 43 is fixedly sleeved on the driving shaft 42; driven shaft 44, the level sets up inside conveying trough 3 keeps away from the one end of installing bin 2, and the both ends of driven shaft 44 rotate with the both sides inner wall of conveying trough 3 respectively and are connected, and the suit is fixed with driven pulley 45 on the driven shaft 44, driven pulley 45 with connect through belt 46 between the driving pulley 43.

Preferably, as shown in fig. 1, in order to avoid an excessively large inclination angle of the slope, the belt conveyor cannot convey the construction material, and therefore, a plurality of conveyor plates 47 are vertically fixed to the circumferential outer surface of the belt 46, and the belt conveyor can feed the construction material by using the conveyor plates 47.

Preferably, as shown in fig. 3 and 4, in order to adjust the inclination angle of the conveying trough 3 and increase the applicability of feeding to slopes with different inclination angles, sleeves 5 are vertically fixed on the outer walls of both sides of the conveying trough 3, one end of each sleeve 5, which is far away from the conveying trough 3, is rotatably connected with the inner wall of the installation box 2, the two sleeves 5 are coaxially arranged with the driving shaft 42, and the inner diameter of each sleeve 5 is larger than the diameter of the driving shaft 42, when the inclination angle of the conveying trough 3 is adjusted, because the two sleeves 5 are rotatably connected with the inner wall of the installation box 2, the conveying trough 3 can be rotated around the axis of the sleeve 5 under the cooperation of the two sleeves 5, so that the inclination angle is kept the same as the inclination angle of the slope, thereby increasing the applicability, and because the inner diameter of the sleeve 5 is larger than the diameter of the driving shaft 42, the feed chute 3 is not disturbed by the drive shaft 42 during rotation.

Specifically, as shown in fig. 3, the linear displacement mechanism includes two traction links 6, a traction vehicle, and a guide mechanism: the two traction connecting rods 6 are fixed on the side wall of the installation box 2, which is far away from the motor 4, the two traction connecting rods 6 are arranged in a V shape, and the two traction connecting rods 6 are connected through a traction ring 61; the tractor is connected with the traction ring 61 through a traction hook; the guide mechanism is arranged at the slope bottom 101 and the slope surface 102, and the guide mechanism is respectively connected with the installation box 2 and the conveying groove 3 and is used for enabling the installation box 2 and the conveying groove 3 to horizontally move along the length direction of the slope.

As shown in fig. 3, the guide mechanism includes two first mounting blocks 7 and two second mounting blocks 8: the two first mounting blocks 7 are fixed at the slope bottom 101 and arranged along the length direction of the slope bottom 101, the two first mounting blocks 7 are respectively positioned at two sides below the mounting box 2, a first T-shaped sliding groove 71 is formed in the top of each first mounting block 7, first T-shaped sliding blocks 72 are respectively fixed at two sides of the bottom of the mounting box 2, and each first T-shaped sliding block 72 is correspondingly and slidably connected with each first T-shaped sliding groove 71; two second installation blocks 8 are fixed on the sloping surface 102 along the length direction of the sloping surface 102, the two second installation blocks 8 are arranged in parallel with the sloping surface 102, a second T-shaped sliding groove 81 is formed in the top of each second installation block 8, second T-shaped sliding blocks 82 are fixed on two sides of the bottom of the conveying chute 3 respectively, and each second T-shaped sliding block 82 is in sliding connection with each second T-shaped sliding groove 81 correspondingly.

When the construction material is conveyed to the top of the slope, in order to avoid that the construction material is completely piled at one position of the top of the slope, the construction material needs to be moved along the length direction of the slope to be conveyed on the top of the slope, when the linear displacement mechanism is used for driving the feeding chute 3 to horizontally feed along the slope, firstly, two first installation blocks 7 need to be fixed on the bottom of the slope 101 along the length direction of the bottom of the slope through detachable anchor rods, meanwhile, two second installation blocks 8 need to be fixed on the slope 102 along the length direction of the slope 102 through detachable anchor rods, then, the first T-shaped sliding blocks 72 arranged at two sides of the bottom of the installation box 2 are correspondingly and slidably connected with the first T-shaped sliding grooves 71 arranged on the first installation blocks 7, the inclination angle of the conveying chute 3 is adjusted to be consistent with the inclination angle of the slope, and then, the second T-shaped sliding blocks 82 respectively fixed at two sides of the bottom of the conveying chute 3 are correspondingly and slidably connected with the second T-shaped sliding grooves 81 arranged on the second T-shaped sliding blocks 82, then travel the place ahead of installing bin 2 with the tractor to be connected traction hook and traction ring 61, drive installing bin 2 through the tractor and remove along the length direction on slope, drive conveyer trough 3 synchronous motion when installing bin 2 removes, thereby can adjust the position that construction material transported on the top of the slope, satisfy the needs of construction, have the practicality.

Preferably, as shown in fig. 2, in order to reduce friction and facilitate movement, a first roller 73 is disposed at the bottom of each first T-shaped slider 72, the first roller 73 is in contact with the bottom of the first T-shaped sliding groove 71, a second roller 83 is disposed at the bottom of each second T-shaped slider 82, and the second roller 83 is in contact with the bottom of the second T-shaped sliding groove 81.

Preferably, as shown in fig. 1, in order to facilitate the loading of the construction material onto the belt conveyor, a feeding port 21 is opened at the top of the installation box 2, and the feeding port 21 is disposed near the through opening.

Preferably, as shown in fig. 1, in order to prevent the construction material from sliding down from the conveying chute 3 into the installation box 2 during charging, a material blocking chute 9 is fixed to an end of the conveying chute 3 near one end of the installation box 2.

Preferably, in order to conveniently throw the construction material to the top of the slope by using a belt conveying mechanism when the conveying trough 3 is inclined, a discharge opening 31 is arranged at the bottom of one end of the conveying trough 3 far away from the installation box 2.

Although the preferred embodiments of the present invention have been disclosed, the embodiments of the present invention are not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.

Claims (10)

1. The utility model provides a slope construction lifting device, is including setting up install bin (2) in slope base (101) department, its characterized in that still includes:

the conveying trough (3) is U-shaped and is obliquely arranged on the slope surface (102), a through hole is formed in the side wall, opposite to the slope surface (102), of the installation box (2), one end of the conveying trough (3) penetrates through the through hole to extend into the installation box (2) and is hinged with the installation box (2), and the other end of the conveying trough (3) extends to the top of the slope (103);

the belt conveying mechanism is arranged in the conveying groove (3);

the linear displacement mechanism is arranged at the slope bottom (101) and the slope surface (102), and the output end of the linear displacement mechanism is connected with the installation box (2) and used for driving the installation box (2) and the conveying groove (3) to horizontally move along the length direction of the slope.

2. The slope construction lifting device according to claim 1, wherein the belt conveying mechanism comprises:

the motor (4) is fixed on the side wall of the installation box (2) through a support frame (41), and an output shaft of the motor (4) is horizontally arranged and is vertical to the conveying groove (3);

one end of the driving shaft (42) is connected with an output shaft of the motor (4), the other end of the driving shaft extends into the installation box (2) and is rotatably connected with the inner wall, far away from the motor (4), of the installation box (2), and a driving belt pulley (43) is fixedly sleeved on the driving shaft (42);

driven shaft (44), the level sets up inside the one end of keeping away from install bin (2) in conveyer trough (3), and the both ends of driven shaft (44) rotate with the both sides inner wall of conveyer trough (3) respectively and are connected, and the suit is fixed with driven pulley (45) on driven shaft (44), driven pulley (45) with connect through belt (46) between driving pulley (43).

3. A slope construction lifting device according to claim 2, wherein a plurality of conveyor plates (47) are vertically fixed to the circumferential outer surface of said belt (46).

4. The slope construction lifting device according to claim 2, wherein sleeves (5) are vertically fixed on the outer walls of two sides of the conveying groove (3), one end, far away from the conveying groove (3), of each sleeve (5) is rotatably connected with the inner wall of the installation box (2) respectively, the two sleeves (5) are coaxially arranged with the driving shaft (42), and the inner diameter of each sleeve (5) is larger than the diameter of the driving shaft (42).

5. The slope construction lifting device according to claim 2, wherein the linear displacement mechanism comprises:

the two traction connecting rods (6) are fixed on the side wall of the mounting box (2) departing from the motor (4), the two traction connecting rods (6) are arranged in a V shape, and the two traction connecting rods (6) are connected through a traction ring (61);

a tractor connected to the traction ring (61) by a traction hitch;

and the guide mechanism is arranged at the slope bottom (101) and the slope surface (102), and is respectively connected with the installation box (2) and the conveying groove (3) and used for enabling the installation box (2) and the conveying groove (3) to horizontally move along the length direction of the slope.

6. The slope construction lifting device according to claim 5, wherein the guide mechanism comprises:

the mounting structure comprises two first mounting blocks (7), wherein the two first mounting blocks (7) are fixed at the slope bottom (101) and arranged along the length direction of the slope bottom (101), the two first mounting blocks (7) are respectively positioned at two sides below the mounting box (2), a first T-shaped sliding groove (71) is formed in the top of each first mounting block (7), first T-shaped sliding blocks (72) are respectively fixed at two sides of the bottom of the mounting box (2), and each first T-shaped sliding block (72) is correspondingly and slidably connected with each first T-shaped sliding groove (71);

two second installation pieces (8), fix on domatic (102) along the length direction of domatic (102), two second installation pieces (8) and domatic (102) parallel arrangement, second T type spout (81) have all been seted up at the top of every second installation piece (8), the both sides of the bottom of conveyer trough (3) are fixed with second T type slider (82) respectively, every second T type slider (82) with every second T type spout (81) correspond sliding connection.

7. The slope construction lifting device according to claim 6, wherein a first roller (73) is arranged at the bottom of each first T-shaped sliding block (72), the first roller (73) is in contact with the bottom of the first T-shaped sliding groove (71), a second roller (83) is arranged at the bottom of each second T-shaped sliding block (82), and the second roller (83) is in contact with the bottom of the second T-shaped sliding groove (81).

8. The slope construction lifting device according to claim 1, wherein a feeding port (21) is formed at the top of the installation box (2), and the feeding port (21) is arranged close to the through hole.

9. The slope construction lifting device according to claim 8, wherein a material blocking groove (9) is fixed at the end part of one end of the conveying groove (3) close to the installation box (2).

10. The slope construction lifting device according to claim 1, wherein a discharge opening (31) is formed in the bottom of one end of the conveying groove (3) far away from the installation box (2).

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