CN115764697A - Cable overhead equipment for laying photovoltaic equipment line - Google Patents

Abstract

The invention discloses a cable overhead device for laying a photovoltaic device line, and particularly relates to the technical field of photovoltaic device line laying overhead, which comprises a first overhead concave frame, wherein a second overhead concave frame is arranged on one side of the first overhead concave frame; the angle laying mechanism comprises a pushing cylinder arranged on a three-point support. The photovoltaic equipment cable bending device can adjust the laying angle of the photovoltaic equipment cable, complete the right-angle overhead cable laying, does not need personnel to bend the cable of the photovoltaic equipment, can bend the photovoltaic equipment cable according to a specified angle, avoids the cable from being bent and damaged, and synchronously carries out angle conveying on a plurality of cables.

Description

Cable overhead equipment for laying photovoltaic equipment line

Technical Field

The invention relates to the technical field of photovoltaic equipment line laying and aerial erection, in particular to a cable aerial equipment for photovoltaic equipment line laying.

Background

Along with photovoltaic industry development is becoming mature day by day, the gradual improvement of people's ecological environmental protection consciousness, the pollution-free energy of novel environmental protection of more focusing on in the aspect of the energy, and solar energy resource is the green new forms of energy that can regenerate that has development potential most, and cable overhead equipment can realize carrying the photovoltaic equipment circuit, lays according to appointed circuit, consequently can play overhead transport to the cable and avoid causing wearing and tearing in ground position department.

The invention discloses a cable overhead device for photovoltaic device line laying, which relates to the technical field of photovoltaic device line laying and comprises a base and a guide seat, wherein the main body of the base is of a rectangular structure, the rear side of the base is fixedly connected with an installation seat, and two limiting rings are oppositely arranged in the installation seat, so that the problem that the included angle between a cable guide and a guide wheel is small in the cable erecting operation process of the conventional overhead device and is not beneficial to normal cable erecting operation and limitation exists is solved, two support frames arranged on the outer side of a cover plate are simultaneously pulled outwards through a guide rod by synchronously pulling a connecting plate through an electric push rod A, and cables passing through rollers are automatically changed in bending included angle guiding operation through the support frames and the guide wheels arranged in the support frames, so that the purpose of cable protection is achieved.

But in the overhead cable equipment use of laying of above-mentioned this photovoltaic equipment circuit, need place the cable and realize aerial delivery in running roller position department, can only carry out horizontal transport moreover and lay the circuit, to presenting the right angle to vertical position department from ground position and carry and can't lay the cable, still need personnel to carry out the crooked laminating photovoltaic equipment side of cable and lay, can not realize many cables that the bend angle presents the right angle scope and lay the line like this fast, it is relatively poor to lay the line suitability.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present invention provides a cable overhead device for photovoltaic equipment line laying.

In order to achieve the purpose, the invention provides the following technical scheme: a cable overhead device for laying a photovoltaic device line comprises a first overhead concave frame, wherein a second overhead concave frame is arranged on one side of the first overhead concave frame, three-point supports are arranged at the bottom ends of the first overhead concave frame and the second overhead concave frame, an angle laying mechanism is arranged at the bottom end of each three-point support, a linkage detection assembly is arranged below the first overhead concave frame and on one side of each three-point support, and laying assemblies are arranged inside the first overhead concave frame and the second overhead concave frame;

the angle is laid mechanism is including installing the push cylinder at the three-position support, and the bottom mounting that pushes the cylinder has first screw thread lantern ring support, one side of first screw thread lantern ring support is equipped with second screw thread lantern ring support, has inserted two-way drive screw in the inside of second screw thread lantern ring support, servo gear motor is fixed in the coaxial transmission of a tip of two-way drive screw, first screw thread lantern ring support and second screw thread lantern ring support all with two-way drive screw threaded connection, and two opposite and the symmetry setting of two screw threads of two-way drive screw, three-point position support and the built on stilts concave frame of second are in same horizontal plane position department, two three-point position support respectively with first built on stilts concave frame and the built on stilts concave frame welded fastening of second between two liang.

Preferably, the inclined support used for obliquely supporting the pushing cylinder is installed at the included angle position of the pushing cylinder and the first threaded lantern ring support, the inclined support is detachably and fixedly connected with the first threaded lantern ring support through a bolt, a concave support plate is arranged outside the first threaded lantern ring support, the first threaded lantern ring support and the second threaded lantern ring support are both in sliding connection with the concave support plate, a controller is arranged on one side of the servo speed reduction motor, the connecting support plate is installed on the pushing cylinder along the vertical downward direction, and a linkage support block is welded to the bottom end of each connecting support plate.

Preferably, linkage determine module just is located three position support one side position department lantern ring pieces including setting up in the below of first built on stilts concave frame, the inside of lantern ring piece is passed through the bearing and is rotated and connect the upper dwang, angle sensor on the coaxial fixed of a tip of dwang, the outer wall of dwang just is located lantern ring piece one side position department fixed cover and is equipped with linkage lantern ring frame, has seted up the rectangle slide opening in one side embedding of linkage lantern ring frame, the inside sliding connection in rectangle slide opening slides branch, the one end welding of sliding branch has the fixed piece of being connected with the built on stilts concave frame lower fixed surface of second, the outside of sliding branch just is located linkage lantern ring frame both sides position department and all is equipped with the spacing ring, two spacing rings all with sliding branch welded fastening.

Preferably, lay subassembly including set up in the built on stilts running roller of a plurality of from left to right equidistance arrangements in proper order of the built on stilts concave frame's of second inside, the built on stilts top of the built on stilts concave frame of second is equipped with the articulated frame of spill, the built on stilts running roller of the articulated frame inside be equipped with a plurality of and built on stilts running roller of roll one-to-one, the built on stilts running roller and the built on stilts inside of going up the running roller all are fixed with the transfer line, and the coaxial transmission welding of a tip of transfer line has driving motor, and one side welding of Liu has the turning block, rotate between turning block and the built on stilts concave frame of second and be connected, the fixed upper surface of the articulated frame of spill turning block, and the inside articulated linking cylinder that has articulated, the inside of linking cylinder just is close to its bottom position department swing joint has the spill support, the outer wall of built on stilts running roller and built on stilts running roller all is through polishing processing, two the transfer line is connected with the built on stilts two with the concave frame and the concave frame of second respectively.

The invention has the technical effects and advantages that:

1. according to the invention, the angle laying mechanism is adopted to start the servo speed-reducing motor to drive the bidirectional transmission screw to rotate forwards, the bidirectional transmission screw drives the first threaded lantern ring support to move backwards, the second threaded lantern ring support moves forwards under the action of the threads, so that the first threaded lantern ring support drives the pushing cylinder to enable the three-point support to move, the pushing cylinder is started to drive the three-point support to move upwards, the three-point support drives the second overhead concave frame to move upwards, the photovoltaic equipment cable moves upwards vertically from a horizontal inclined state, the laying angle of the photovoltaic equipment cable can be adjusted, the right-angle overhead laying of the cable is finished, and personnel are not required to bend the cable of the photovoltaic equipment;

2. according to the invention, the second overhead concave frame drives the fixed support block to move the sliding support rod upwards by adopting the linkage detection component, the two limit rings move along the side surface of the linkage lantern ring frame, the linkage lantern ring frame can upwards rotate near one end part of the sliding support rod, the rotating rod can rotate in the lantern ring block, and meanwhile, the rotating rod drives the output end of the angle sensor to rotate, the angle sensor can sense the angle, when the sensed angle is forty-five degrees, the cable of the photovoltaic equipment can be bent according to the specified angle, the cable is prevented from being bent and damaged, and the bending and laying are more accurate;

3. according to the invention, the laying component is adopted to enable the starting linkage cylinder to drive the concave rotating block to extrude downwards, the concave rotating block drives the concave hinging frame to enable the rotating block to rotate downwards, the concave hinging frame drives the transmission rod to enable the plurality of overhead lower roller wheels to be extruded outside a cable, the concave hinging frame drives the transmission rod to enable the plurality of overhead lower roller wheels to be extruded outside the cable, the plurality of cables are synchronously conveyed at an angle, the laying force is larger, and the laying is stably realized;

to sum up, through the above-mentioned interact of a plurality of effects, can adjust the angle of laying of photovoltaic equipment cable, accomplish the overhead cable of laying of right angle, need not the cable of personnel's crooked photovoltaic equipment, can be crooked photovoltaic equipment cable according to appointed angle, avoid the crooked damage of cable, many synchronous cables carry out the angle and carry out, to sum up can realize many synchronous right angle bending overhead laying of photovoltaic equipment cable high-efficiently, lay angle application scope wider.

Drawings

Fig. 1 is a schematic front view of a cable overhead device for photovoltaic equipment line laying according to the present invention.

Fig. 2 is a schematic rear view of a cable overhead device for photovoltaic equipment line laying according to the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

Fig. 4 is a schematic diagram of a broken partial structure of a linked lantern ring frame in the cable overhead equipment for photovoltaic equipment line laying according to the present invention.

Fig. 5 is a schematic structural diagram of a laying assembly in the cable overhead equipment for photovoltaic equipment line laying according to the invention.

Fig. 6 is a schematic structural diagram of a connection part of a transmission rod and an overhead lower roller in the cable overhead device for photovoltaic device line laying according to the present invention.

Fig. 7 is an enlarged schematic view of the structure at B in fig. 5 according to the present invention.

Fig. 8 is a structural schematic diagram of an inclined angle bending overhead state of the cable overhead device for photovoltaic device line laying according to the invention.

The reference signs are: 1. a first overhead concave shelf; 2. a second overhead concave frame; 3. a three-point bracket; 4. a push cylinder; 5. a first threaded collar bracket; 6. a second threaded collar bracket; 7. a bidirectional drive screw; 8. a servo deceleration motor; 9. a tilt bracket; 10. a concave support plate; 11. a controller; 12. connecting the support plate; 13. linkage supporting blocks; 14. a collar block; 15. rotating the rod; 16. an angle sensor; 17. a linkage collar frame; 18. a rectangular slide hole; 19. a sliding support rod; 20. fixing the supporting block; 21. a limiting ring; 22. overhead roller mounting; 23. an overhead lower roller; 24. a transmission rod; 25. a drive motor; 26. a concave hinge frame; 27. a concave rotating block; 28. a linkage cylinder; 29. a concave bracket; 30. and (6) rotating the block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in the attached figures 1-8, the cable overhead equipment for photovoltaic equipment line laying is provided with an angle laying mechanism, a linkage detection assembly and a laying assembly, the arrangement of each mechanism and assembly can realize the overhead laying of multiple synchronous right-angle bends for the photovoltaic equipment cable at high efficiency, the application range of laying angles is wider, and the concrete structures of each mechanism and assembly are arranged as follows:

in some embodiments, as shown in fig. 1, the angle-laying mechanism includes a pushing cylinder 4 installed on a three-point support 3, a first threaded collar support 5 is fixed at a bottom end of the pushing cylinder 4, a second threaded collar support 6 is arranged on one side of the first threaded collar support 5, a bidirectional transmission screw 7 is inserted into the second threaded collar support 6, an end of the bidirectional transmission screw 7 is coaxially and fixedly transmitted by an upper servo reduction motor 8, the first threaded collar support 5 and the second threaded collar support 6 are both in threaded connection with the bidirectional transmission screw 7, two threads of the bidirectional transmission screw 7 are opposite and symmetrically arranged, the three-point support 3 and the second overhead concave frame 2 are located at the same horizontal position, and the two three-point supports 3 are respectively welded and fixed with the first overhead concave frame 1 and the second overhead concave frame 2.

In some embodiments, as shown in fig. 1, an inclined bracket 9 for obliquely supporting the push cylinder 4 is installed at an included angle position between the push cylinder 4 and the first threaded collar bracket 5, and the inclined bracket 9 and the first threaded collar bracket 5 are detachably and fixedly connected by a bolt, so that the inclined bracket 9 can obliquely support the push cylinder 4, and increase the stability of the push cylinder 4 in use, a concave support plate 10 is installed outside the first threaded collar bracket 5, the first threaded collar bracket 5 and the second threaded collar bracket 6 are both slidably connected with the concave support plate 10, so that the bidirectional transmission screw 7 drives the first threaded collar bracket 5 to move backwards along the inside of the concave support plate 10, the second threaded collar bracket 6 moves forwards along the inside of the concave support plate 10 under the action of the thread, a controller 11 is installed on one side of the servo reduction motor 8, a connection support plate 12 is installed in a vertically downward direction on the push cylinder 4, a linkage support block 13 is welded at the bottom end of each connection support plate 12, so that the linkage support block 13 plays a role in supporting the connection support plate 12, the concave support plate 12 plays a role in supporting the concave support plate 10, and increases the stability of the concave support plate 10.

In some embodiments, as shown in fig. 1 to 4, the linkage detection component includes a collar block 14 disposed below the first aerial recessed frame 1 and located at a position on one side of the three-point support 3, an upper rotating rod 15 is rotatably connected inside the collar block 14 through a bearing, an upper angle sensor 16 is coaxially fixed at one end of the rotating rod 15, a linkage collar frame 17 is fixedly sleeved on a position on one side of the collar block 14 on the outer wall of the rotating rod 15, a rectangular sliding hole 18 is embedded in one side of the linkage collar frame 17, a sliding support rod 19 is slidably connected inside the rectangular sliding hole 18, a fixed support block 20 fixedly connected with the lower surface of the second aerial recessed frame 2 is welded at one end of the sliding support rod 19, limit rings 21 are disposed outside the sliding support rod 19 and located at positions on two sides of the linkage collar frame 17, and both the two limit rings 21 are welded to the sliding support rod 19.

In some embodiments, as shown in fig. 5 to 7, the paving assembly includes a plurality of overhead upper rollers 22 arranged inside the second overhead concave frame 2 at equal intervals from left to right, a concave hinge frame 26 is arranged above the second overhead concave frame 2, a plurality of overhead lower rollers 23 corresponding to the overhead upper rollers 22 one by one are arranged inside the concave hinge frame 26, transmission rods 24 are fixed inside the overhead lower rollers 23 and the overhead upper rollers 22, a driving motor 25 is coaxially welded to one end of the transmission rod 24, a rotating block 30 is welded to one side of the liu, the rotating block 30 is rotatably connected to the second overhead concave frame 2, an upper concave rotating block 27 is fixed to an upper surface of the concave hinge frame 26, a linkage cylinder 28 is hinged to the inside of the concave rotating block 27, a concave bracket 29 is movably connected to the inside of the linkage cylinder 28 and near the bottom end of the linkage cylinder, outer walls of the overhead upper rollers 22 and the overhead lower rollers 23 are polished, and the two transmission rods 24 are rotatably connected to the concave hinge frame 26 and the second overhead concave frame 2.

The operation principle of the embodiment of the invention is as follows:

when the cable is placed in an overhead manner, the concave support plate 10 can be moved to the position of the side face of a laid line, and the concave support plate 10 can enter the linkage support block 13 by being knocked by nails, so that the linkage support block 13 is supported, the linkage support block 13 supports the connecting support plate 12, and the position of the concave support plate 10 can be fixed;

when a photovoltaic device line is laid at an angle, a plurality of photovoltaic device cables can be placed in a gap formed between an overhead upper roller 22 and an overhead lower roller 23 in a first overhead concave frame 1 and enter a gap between an overhead lower roller 23 and an overhead upper roller 22 in a second overhead concave frame 2, when the photovoltaic device needs to be laid along a right-angle photovoltaic device surface, a servo speed-down motor 8 can be started to drive a bidirectional transmission screw 7 to rotate forwards, the bidirectional transmission screw 7 drives a first threaded lantern ring support 5 to move backwards, a second threaded lantern ring support 6 moves forwards under the action of threads, therefore, the first threaded lantern ring support 5 drives a pushing cylinder 4 to enable a three-point-position support 3 to move, the three-point-position support 3 can drive the second overhead concave frame 2 to move to be attached to the side position of the photovoltaic device in a moving mode, then the pushing cylinder 4 is started to drive the three-point-position support 3 to move upwards, the three-point-position support 3 drives the second overhead concave frame 2 to move upwards, therefore, the second overhead concave frame 2 can form a differential position between the first overhead concave frame 1, the photovoltaic device cables can be placed horizontally and move upwards, and the photovoltaic device cables can be inclined along the vertical direction to adjust the angle of the photovoltaic device;

when the second overhead concave frame 2 moves upwards, the second overhead concave frame 2 drives the fixed support block 20 to enable the sliding support rod 19 to move upwards, the sliding support rod 19 drives the two limit rings 21 to move along the side face of the linkage ring frame 17, the sliding support rod 19 can move in the rectangular sliding hole 18 in the linkage ring frame 17, one end part, close to the sliding support rod 19, of the linkage ring frame 17 can rotate upwards, the linkage ring frame 17 drives the rotating rod 15 to rotate, the rotating rod 15 can rotate inside the ring block 14, meanwhile, the rotating rod 15 drives the output end of the angle sensor 16 to rotate, the linkage ring frame 17 can rotate to a specified angle, the angle sensor 16 can sense the angle, when the sensed angle is forty-five degrees, the photovoltaic equipment line can be laid horizontally to vertically, right-angle overhead laying is completed, and people do not need to bend the photovoltaic equipment line;

when linkage is laid, the linkage cylinder 28 can be started to drive the concave rotating block 27 to extrude downwards, the concave rotating block 27 drives the concave hinging frame 26 to enable the rotating block 30 to rotate downwards, the rotating block 30 can rotate on the second overhead concave frame 2, the concave hinging frame 26 drives the transmission rod 24 to enable the plurality of overhead lower rollers 23 to extrude outside the cable, accordingly, the forehead enclosure can be started to drive the transmission rod 24 to transmit, the transmission rod 24 drives the plurality of overhead lower rollers 23 to rotate, and therefore the plurality of cables of the photovoltaic equipment can be stably conveyed and laid.

The present invention is not limited to the above preferred embodiments, but rather, any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a built on stilts equipment of cable for photovoltaic equipment circuit is laid, includes first built on stilts concave frame (1), one side of first built on stilts concave frame (1) is equipped with built on stilts concave frame of second (2), the bottom of first built on stilts concave frame (1) and the built on stilts concave frame of second (2) all is equipped with three point support (3), its characterized in that: an upper angle laying mechanism is installed at the bottom end of the three-point-position support (3), a linkage detection assembly is arranged below the first overhead concave frame (1) and at one side of the three-point-position support (3), and laying assemblies are arranged inside the first overhead concave frame (1) and the second overhead concave frame (2);

the angle laying mechanism comprises a pushing cylinder (4) installed on a three-point support (3), a first threaded lantern ring support (5) is fixed to the bottom end of the pushing cylinder (4), a second threaded lantern ring support (6) is arranged on one side of the first threaded lantern ring support (5), a bidirectional transmission screw (7) is inserted into the second threaded lantern ring support (6), and a coaxial transmission portion of the bidirectional transmission screw (7) is fixedly provided with a servo speed reduction motor (8).

2. A cable-laying device for photovoltaic installation line laying according to claim 1, characterized in that: the first threaded lantern ring support (5) and the second threaded lantern ring support (6) are in threaded connection with the bidirectional transmission screw (7), and two threads of the bidirectional transmission screw (7) are opposite and symmetrically arranged.

3. The cable overhead device for photovoltaic equipment line laying according to claim 1, characterized in that: the three-point-position support (3) and the second overhead concave frame (2) are located at the same horizontal plane position, and the two three-point-position supports (3) are welded and fixed with the first overhead concave frame (1) and the second overhead concave frame (2) in pairs respectively.

4. The cable overhead device for photovoltaic equipment line laying according to claim 1, characterized in that: promote cylinder (4) and first screw thread lantern ring support (5) contained angle position department and install and be used for playing slope support effect's slope support (9) to promoting cylinder (4), and slope support (9) and first screw thread lantern ring support (5) pass through detachable fixed connection of bolt.

5. The cable overhead device for photovoltaic equipment line laying according to claim 1, characterized in that: the outer portion of the first threaded lantern ring support (5) is provided with a concave support plate (10), and the first threaded lantern ring support (5) and the second threaded lantern ring support (6) are in sliding connection with the concave support plate (10).

6. A cable-laying device for photovoltaic installation line laying according to claim 1, characterized in that: one side of servo gear motor (8) is equipped with controller (11), promote cylinder (4) and install connection extension board (12) along vertical downward position, linkage supporting block (13) is all welded on the bottom of every connection extension board (12).

7. A cable-laying device for photovoltaic installation line laying according to claim 1, characterized in that: linkage detection subassembly just is located three point support (3) one side position department lantern ring piece (14) including setting up in the below of first built on stilts concave frame (1), the inside of lantern ring piece (14) is passed through the bearing and is rotated and connect upward dwang (15), angular transducer (16) on the tip coaxial fixation of dwang (15), the outer wall of dwang (15) just is located lantern ring piece (14) one side position department fixed cover and is equipped with linkage lantern ring frame (17), has seted up rectangle slide opening (18) in one side embedding of linkage lantern ring frame (17), slide rod (19) is connected in the inside sliding connection of rectangle slide opening (18), the one end welding of slide rod (19) has fixed support piece (20) of being connected with second built on stilts concave frame (2) lower fixed surface.

8. The device for the aerial erection of cables for the line laying of photovoltaic plants according to claim 7, characterized in that: the outside of sliding support rod (19) just is located linkage lantern ring frame (17) both sides position department and all is equipped with spacing ring (21), and two spacing rings (21) all with sliding support rod (19) welded fastening.

9. The cable overhead device for photovoltaic equipment line laying according to claim 1, characterized in that: lay subassembly including setting up in the built on stilts running roller (22) that a plurality of from left to right equidistance arranged in proper order of the built on stilts concave frame (2) of second, the top of the built on stilts concave frame (2) of second is equipped with the articulated frame of spill (26), the inside of the articulated frame of spill (26) is equipped with a plurality of and built on stilts running roller (23) of running roller (22) one-to-one down, built on stilts running roller (23) and the inside of built on stilts running roller (22) all are fixed with transfer line (24), and the coaxial transmission welding of a tip of transfer line (24) has driving motor (25), and the welding of one side of Liu has turning block (30), rotate between turning block (30) and the built on stilts concave frame of second (2) and be connected, the fixed concave turning block (27) of upper surface of the articulated frame of spill, and the inside of concave turning block (27) articulates there is linkage cylinder (28), the inside of linkage cylinder (28) just is connected with activity concave support (29) near its bottom end position department.

10. A cable overhead device for photovoltaic equipment line laying according to claim 9, characterized in that: the outer walls of the overhead upper roller (22) and the overhead lower roller (23) are polished, and the two transmission rods (24) are respectively connected with the concave hinged frame (26) and the second overhead concave frame (2) in a rotating mode.

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