CN220055223U - Workpiece conveying device for mountain slope - Google Patents

Abstract

The utility model discloses a workpiece conveying device for a mountain slope, which belongs to the field of conveying devices and comprises supporting frames, wherein the supporting frames are fixedly connected below and above the mountain slope, a group of symmetrical steel strands are fixedly connected between the supporting frames, a conveying mechanism is arranged on the top surfaces of the symmetrical steel strands, a winch is fixedly connected below the upper supporting frame, the supporting frames are erected above and below the mountain slope, and after the steel strands for guide rails are connected between the supporting frames, the conveying mechanism formed by the fixing mechanism and the connecting mechanism is utilized to achieve the purpose of conveniently conveying a photovoltaic panel on the mountain slope.

Description

Workpiece conveying device for mountain slope

Technical Field

The utility model relates to the field of conveying devices, in particular to a workpiece conveying device for a mountain slope.

Background

A photovoltaic panel assembly is a power generation device that generates direct current when exposed to sunlight and is composed of thin solid photovoltaic cells made almost entirely of semiconductor material (e.g., silicon).

In the prior art, when building photovoltaic power generation station in some mountain areas, need transport the photovoltaic board to the mountain top, because mountain area in mountain area mostly has certain slope, lead to unable transport the photovoltaic board to the mountain top through the transport vechicle, so current general behind binding together the photovoltaic board through the rope through the manual work, place on the travelling bogie and transport the photovoltaic board to the mountain top through the mode of manual push-and-pull, but, this kind of transportation mode is when transporting the photovoltaic board, not only need consume a large amount of manpower and materials, and transportation operation is wasted time and energy, also be inconvenient for fixing and dismantling the photovoltaic board, thereby reduced the transport efficiency of photovoltaic board, simultaneously, mountain area slope ground is uneven, can shake constantly, and then cause the damage to the photovoltaic board in the transportation easily.

Disclosure of Invention

The utility model mainly aims to provide a workpiece conveying device for a mountain slope, which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the work piece conveyer for mountain slope includes one support frame connected to the lower part and the upper part of the mountain slope, one symmetrical steel strand connected between the support frames, one winding machine connected to the lower part of the support frame, one conveying mechanism comprising one fixing mechanism and one connecting mechanism, one pressing plate and one screw knob connected to the pressing plate via the sliding blocks on the two sides of the bottom, one pressing plate connected to the pressing plate via the screw holes on the back wall of the concave conveying plate, the concave transportation plate is movably connected with the steel strands through connecting mechanisms on two sides of the bottom surface, the connecting mechanisms comprise a concave bottom plate, sliding rods, concave shells, two-way screw rods and pulleys, the concave bottom plate is fixedly connected on two sides of the bottom surface of the concave transportation plate, a group of symmetrical sliding rods are fixedly connected in notches of the concave bottom plate, the two-way screw rods are movably connected in the notches of the concave bottom plate through first rotating rods on two ends and are positioned between the sliding rods, the two concave shells are respectively movably connected with the sliding rods through sliding sleeves on two sides of the top surface, the concave shells are further movably connected with the two-way screw rods through nuts on the top surface, the two pulleys are respectively movably connected inside the concave shells through second rotating rods on the upper end and the lower end, and the concave transportation plate is fixedly connected with steel ropes on a winch.

Preferably, a group of symmetrical sliding grooves are formed in the inner bottom surface of the concave groove of the concave conveying plate, and threaded holes are further formed in the rear wall of the concave conveying plate.

Preferably, the bottom surface both sides of clamp plate are fixed mounting respectively has the slider, and slider movable mounting is in the spout, the tongue has been seted up on the back wall of clamp plate, screw thread knob and screw hole threaded connection, and the bottom fixed mounting of screw thread knob has the turning block and movable mounting in the tongue.

Preferably, the concave bottom plate is fixedly installed on two sides of the bottom surface of the concave transport plate, first rotating holes are respectively formed in the left side wall and the right side wall of the concave bottom plate, sliding rods which are symmetrical front and back are fixedly installed in the notch of the concave bottom plate, first rotating rods are respectively fixedly installed at the left end and the right end of the bidirectional screw rod, the first rotating rods are movably installed in the first rotating holes, and rotating buttons are fixedly installed on the outer side end walls of the first rotating rods at the right end.

Preferably, the top surface of the concave shell is fixedly provided with a group of sliding sleeves which are symmetrical in front-back direction, the sliding sleeves are sleeved on the sliding rods, nuts are fixedly arranged on the top surface of the concave shell and between the sliding sleeves, and the nuts are in threaded connection with the bidirectional screw rods.

Preferably, a group of front-back symmetrical second rotating holes are respectively formed in the upper end wall and the lower end wall of the notch of the concave shell, the upper end and the lower end of the pulley are respectively and fixedly provided with a second rotating rod, the second rotating rods are movably arranged in the second rotating holes, a circle of wheel groove is further formed in the outer wall of the pulley, and the steel stranded wires are located between the wheel grooves formed in the outer wall of the pulley which is bilaterally symmetrical.

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

in the utility model, after the supporting frames are erected above and below a mountain slope and steel strands for guide rails are connected between the supporting frames, a concave transportation plate is placed on the top surface of the symmetrical steel strands and is arranged between the left and right symmetrical pulleys at the bottom of the concave transportation plate, then a bidirectional screw rod is driven to rotate by a rotating knob through a first rotating rod, so that a concave shell can relatively move along a sliding rod and the bidirectional screw rod through a sliding sleeve and a nut, the steel strands are clamped between wheel grooves formed on the outer walls of the left and right symmetrical pulleys, then a photovoltaic plate to be transported is placed in a notch of the concave transportation plate, the rotating screw knob pushes the pressing plate to push the photovoltaic plate into the concave transportation plate through the rotating block, so that the problem that the photovoltaic plate falls off during transportation is avoided, and finally, the winch can drive the concave transportation plate to move upwards along the steel strands through the pulley by rolling the steel rope connected with the concave transportation plate, so that the purpose of conveniently transporting the photovoltaic plate is achieved on a mountain slope by utilizing the transportation mechanism, the operation is simple and convenient, manpower and material resources and time and labor saving are reduced, the transportation is not required by manpower, the photovoltaic plate is convenient to quickly fix and detach, the transportation efficiency of the photovoltaic plate is improved, and meanwhile, the photovoltaic plate is ensured not to be damaged due to vibration during transportation.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view showing the structure of the fixing mechanism of the present utility model;

fig. 3 is a schematic view illustrating the structure of the connection mechanism according to the present utility model.

In the figure: 1. mountain slopes; 2. a support frame; 3. steel strand; 4. a hoist; 5. a transport mechanism; 6. a fixing mechanism; 7. a connecting mechanism; 8. a concave transport plate; 9. a chute; 10. a threaded hole; 11. a pressing plate; 12. a slide block; 13. a convex groove; 14. a threaded knob; 15. a rotating block; 16. a concave bottom plate; 17. a first rotation hole; 18. a slide bar; 19. a concave housing; 20. a sliding sleeve; 21. a two-way screw rod; 22. a first rotating lever; 23. a rotating knob; 24. a nut; 25. a second rotation hole; 26. a pulley; 27. a second rotating lever; 28. wheel groove.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1 to 3, in the present embodiment, in order to facilitate transportation of the photovoltaic module on a mountain slope by the transportation mechanism 5 composed of the fixing mechanism 6 and the connecting mechanism 7, the specific principle of use of the transportation mechanism 5 is as follows:

firstly, a support frame 2 is respectively erected below and above the slope of a mountain slope 1, a group of steel strands 3 used as guide rails are pre-arranged between the support frames 2, a winch 4 is installed below the support frame 2 above, then, a concave transportation plate 8 is placed on the top surface of the symmetrical concave transportation plate 8, the steel strands 3 are placed between pulleys 26 which are arranged on the two sides below the concave transportation plate 8 and are symmetrical left and right, then, a rotating button 23 on the outer side wall of a concave bottom plate 16 installed on the two sides of the bottom surface of the concave transportation plate 8 is rotated, the rotating button 23 drives first rotating rods 22 at the two ends of a bidirectional screw rod 21 to rotate in first rotating holes 17 formed on the left side wall and the right side wall of the concave bottom plate 16, the first rotating rods 22 drive the bidirectional screw rod 21 to rotate in the concave bottom plate 16, at the moment, because the nut 24 arranged on the top surface of the symmetrical concave shell 19 is in threaded connection with the bidirectional screw rod 21, when the bidirectional screw rod 21 rotates, the nut 24 drives the concave shell 19 to move along the bidirectional screw rod 21, the sliding sleeve 20 arranged on the top surface of the concave shell 19 slides along the sliding rod 18 arranged in the concave bottom plate 16, at the moment, the symmetrical concave shell 19 performs relative movement operation until the steel strand 3 is clamped between the wheel grooves 28 arranged on the outer walls of the left and right symmetrical pulleys 26, then the steel rope on the windlass 4 is fixedly connected with the concave transportation plate 8, then the photovoltaic plate workpiece to be transported is placed into the notch of the concave transportation plate 8, and the threaded knob 14 positioned behind the concave transportation plate 8 is rotated, the threaded knob 14 realizes threaded rotation operation in the threaded hole 10 arranged on the rear wall of the concave transportation plate 8, and drives the rotating block 15 installed at the bottom end to rotate in the convex groove 13 formed on the rear end wall of the pressing plate 11, and drives the pressing plate 11 in the concave transportation plate 8 to move forward through the rotating block 15 in the process of continuously rotating the threaded knob 14, and the sliding blocks 12 installed at the two sides of the bottom surface of the pressing plate 11 slide in the sliding grooves 9 formed at the two sides of the bottom surface in the concave transportation plate 8 until the photovoltaic plate workpiece is abutted into the concave transportation plate 8 to finish fixing, then, the winding machine 4 is started and the winding machine 4 winds the steel rope, and drives the concave transportation plate 8 to move upwards along the mountain slope 1 in the process of continuously winding the steel rope, and the concave transportation plate 8 drives the pulley 26 to rotate in the moving process, and the second rotating rods 27 installed at the upper end and the lower end of the pulley 26 rotate in the second rotating holes 25 formed in the concave shell 19, the pulley 26 rolls along the steel strand 3 through the pulley groove 28, so that the concave transportation plate 8 can move along the steel strand 3 through the pulley 26, thereby achieving the purpose of conveniently transporting the photovoltaic plate workpiece on a mountain slope through the transportation mechanism 5, further reducing manpower and material resources, saving time and labor, avoiding transportation by manpower, facilitating rapid fixing and dismounting of the photovoltaic plate, improving the transportation efficiency of the photovoltaic plate, ensuring that the photovoltaic plate is not damaged by vibration in transportation, avoiding the dismounting of the support frame 2 after the transportation is completed, enabling the support frame 2 to be used as a preinstalled support structure of the photovoltaic plate after the transportation, and dismounting the steel strand 3 and the winch 4 after the transportation of the photovoltaic plate is finished, so as to facilitate the construction of the photovoltaic panel between the support frames 2 and on the slope surface of the mountain slope 1.

The foregoing is only illustrative of the preferred embodiments of the present utility model and, although the present utility model has been described in detail with reference to the foregoing embodiments, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model, and equivalents of the features may be substituted for elements thereof without departing from the true spirit and scope of the utility model.

Claims (6)

1. Work piece conveyer for mountain slope, including support frame (2), its characterized in that: the support frame (2) is fixedly connected below and above the mountain slope (1), a group of symmetrical steel strands (3) are fixedly connected between the support frames (2), a winch (4) is fixedly connected below the support frame (2) above, a conveying mechanism (5) is arranged on the top surface of the symmetrical steel strands (3), the conveying mechanism (5) is composed of a fixing mechanism (6) and a connecting mechanism (7), the fixing mechanism (6) comprises a concave conveying plate (8), a pressing plate (11) and a threaded knob (14), the pressing plate (11) is movably connected in a notch of the concave conveying plate (8) through sliding blocks (12) on two sides of the bottom surface, the threaded knob (14) is movably connected with the concave conveying plate (8) through threaded holes (10) on the rear wall of the concave conveying plate (8) and is movably connected with the pressing plate (11) through rotating blocks (15) at the bottom end, the concave conveying plate (8) is movably connected with the steel strands (3) through connecting mechanisms (7) on two sides of the bottom surface, the connecting mechanism (7) comprises a concave conveying plate (8), a concave shell (16), a concave sliding rod (16) and two-way sliding rods (16) are fixedly connected with the bottom surface (16) through sliding rods, and the notch of concave bottom plate (16) is fixedly connected with a set of symmetrical slide bar (18), two-way lead screw (21) are through first dwang (22) swing joint at both ends in the notch of concave bottom plate (16) and be located between slide bar (18), and two concave casing (19) are respectively through sliding sleeve (20) and slide bar (18) swing joint in the top surface both sides, concave casing (19) still are through nut (24) and two-way lead screw (21) swing joint of top surface, and two pulleys (26) are respectively through the inside of second dwang (27) swing joint in concave casing (19) of upper and lower extreme, concave transport board (8) are in the same place with cable wire fixed connection on hoist engine (4).

2. A work piece transport device for hillside slopes as set forth in claim 1, wherein: a group of symmetrical sliding grooves (9) are formed in the inner bottom surface of the concave conveying plate (8), and threaded holes (10) are further formed in the rear wall of the concave conveying plate (8).

3. A work piece transport device for hillside slopes as set forth in claim 2, wherein: the bottom surface both sides of clamp plate (11) are fixed mounting respectively slider (12), and slider (12) movable mounting is in spout (9), protruding groove (13) have been seted up on the back wall of clamp plate (11), screw thread knob (14) and screw hole (10) threaded connection, and the bottom fixed mounting of screw thread knob (14) has turning block (15) and movable mounting in protruding groove (13).

4. A work piece transport device for hillside slopes as set forth in claim 3, wherein: the concave bottom plate (16) is fixedly arranged on two sides of the bottom surface of the concave transportation plate (8), first rotating holes (17) are respectively formed in the left side wall and the right side wall of the concave bottom plate (16), sliding rods (18) which are symmetrical in front and back are fixedly arranged in the notches of the concave bottom plate (16), first rotating rods (22) are respectively and fixedly arranged at the left end and the right end of the two-way screw rod (21), the first rotating rods (22) are movably arranged in the first rotating holes (17), and rotating buttons (23) are fixedly arranged on the outer side end walls of the first rotating rods (22).

5. A work piece transport device for hillside slopes as set forth in claim 4, wherein: the top surface of concave casing (19) fixed mounting has a set of front and back symmetry sliding sleeve (20), and sliding sleeve (20) suit is on slide bar (18), the top surface of concave casing (19) and lie in between sliding sleeve (20) still fixed mounting have nut (24), and nut (24) and two-way lead screw (21) threaded connection.

6. A work piece transport device for hillside slopes as set forth in claim 5, wherein: a group of front-back symmetrical second rotating holes (25) are respectively formed in the upper end wall and the lower end wall of the concave opening of the concave shell (19), a second rotating rod (27) is respectively and fixedly arranged at the upper end and the lower end of the pulley (26), the second rotating rod (27) is movably arranged in the second rotating holes (25), a circle of wheel groove (28) is further formed in the outer wall of the pulley (26), and the steel stranded wires (3) are located between the wheel grooves (28) formed in the outer wall of the pulley (26) which is symmetrical left and right.