CN214053749U - Photovoltaic frame base positioner that punches - Google Patents

Photovoltaic frame base positioner that punches Download PDF

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Publication number
CN214053749U
CN214053749U CN202022525577.8U CN202022525577U CN214053749U CN 214053749 U CN214053749 U CN 214053749U CN 202022525577 U CN202022525577 U CN 202022525577U CN 214053749 U CN214053749 U CN 214053749U
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CN
China
Prior art keywords
rod
displacement
sliding
sliding block
positioning
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Application number
CN202022525577.8U
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Chinese (zh)
Inventor
豆志远
李锐
曹俊
杨保卫
李伟跃
王延增
郭美华
任梦楠
田长有
张志坤
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Powerchina Henan Engineering Co Ltd
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Powerchina Henan Engineering Co Ltd
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Priority to CN202022525577.8U priority Critical patent/CN214053749U/en
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Publication of CN214053749U publication Critical patent/CN214053749U/en
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Abstract

The utility model discloses a photovoltaic frame base punching positioning device, which comprises an upper supporting rod, a lower supporting rod, a first side supporting rod, a second side supporting rod, a third side supporting frame and a clamping plate, wherein displacement components are respectively connected between the third side supporting frame and the fourth side supporting frame and between the fifth side supporting frame and the sixth side supporting frame in a sliding way, and a positioning component is arranged between the two displacement components; the middle support rod is arranged between the first side support rod and the first side support rod, displacement grooves are respectively dug in the inner side face of the upper support rod, the inner side face of the lower support rod and the inner side face of the sixth side support rod, and the rear end face of each clamping plate is respectively connected with the displacement grooves of the upper support rod, the displacement grooves of the lower support rod and the displacement grooves of the middle support rod in a sliding mode through a sliding block. The utility model discloses can be quick, accurate beat the operation in hole, the condition of off tracking appears when avoiding the drilling tool to punch, has reduced the work degree of difficulty, has alleviateed constructor's burden, has improved construction quality, convenient to use, easy operation easily promotes.

Description

Photovoltaic frame base positioner that punches
The technical field is as follows:
the utility model relates to a drilling tool locating rack that punches, in particular to photovoltaic frame base positioner that punches.
Background art:
when the photovoltaic panel is installed outdoors, the photovoltaic panel support frame is often assembled, when the photovoltaic frame is installed, hole drilling operation is often required to be carried out on the wide frame on site, and due to the fact that the surface of the photovoltaic frame is smooth, when the hole is drilled, the situations of deviation and skewing of a drill bit can occur, and the overall installation is seriously influenced; at least 8-10 pairs of holes need to be drilled on each photovoltaic frame, which increases the difficulty of construction for workers.
The utility model has the following contents:
the utility model discloses the technical problem that will solve is: the defects of the prior art are overcome, the photovoltaic frame base punching positioning device is provided, hole punching operation can be performed quickly and accurately, the deviation condition of a drilling tool during punching is avoided, the work difficulty is reduced, and the construction quality is improved.
The utility model discloses a technical scheme who solves technical problem and take is:
a punching and positioning device for a photovoltaic frame base comprises an upper supporting rod, a lower supporting rod, a first side supporting rod, a second side supporting rod, a third side supporting frame and a clamping plate, wherein the lower supporting rod is arranged below the upper supporting rod in parallel, a first side supporting rod is arranged between the left ends of the upper supporting rod and the lower supporting rod, a second side supporting rod is arranged between the right ends of the upper supporting rod and the lower supporting rod, the upper end and the lower end of the inner side surface of the first side supporting rod are respectively provided with a third side supporting frame and a fourth side supporting frame, a fifth side support frame and a sixth side support frame are respectively arranged at the upper end and the lower end of the inner side surface of the second side support rod, displacement assemblies are respectively connected between the third side support frame and the fourth side support frame and between the fifth side support frame and the sixth side support frame in a sliding manner, and a positioning assembly is arranged between the two displacement assemblies; the clamping device comprises a first side supporting rod, a second side supporting rod, a third side supporting rod, a fourth side supporting rod, a sixth side supporting rod and a middle supporting rod, wherein the middle supporting rod is arranged between the first side supporting rod and the first side supporting rod, displacement grooves are respectively dug in the inner side surface of the upper supporting rod, the inner side surface of the lower supporting rod and the inner side surface of the sixth side supporting rod, the number of the clamping plates is two, and the rear end surface of each clamping plate is respectively connected with the displacement grooves of the upper supporting rod, the displacement grooves of the lower supporting rod and the displacement grooves of the middle supporting rod in a sliding mode through a sliding block.
A first sliding rod is arranged in a displacement groove on the inner side surface of the upper supporting rod, and two ends of the first sliding rod are fixedly connected with the inner walls of two ends of the displacement groove respectively; a second slide bar is arranged in a displacement groove on the inner side surface of the middle support bar, and two ends of the second slide bar are respectively and fixedly connected with the inner walls of two ends of the displacement groove; and a third slide bar is arranged in a displacement groove on the inner side surface of the lower support bar, and two ends of the third slide bar are respectively and fixedly connected with the inner walls of two ends of the displacement groove.
The two clamping plates are respectively connected with the corresponding displacement grooves in a sliding manner through sliding blocks; the rear end face of each clamping plate is provided with a first sliding block, a second sliding block and a third sliding block corresponding to the position of the displacement groove on the upper supporting rod, the position of the displacement groove on the lower supporting rod and the position of the displacement groove on the middle supporting rod respectively, a first through hole is dug in the side face of the first sliding block, a second through hole is dug in the side face of the second sliding block, a third through hole is dug in the side face of the third sliding block, the first sliding block is sleeved on the first sliding rod through the first through hole, the second sliding block is sleeved on the second sliding rod through the second through hole, and the third sliding block is sleeved on the third sliding rod through the third through hole; the left first sliding rod of the first sliding block, the left second sliding rod of the second sliding block and the left second sliding rod of the third sliding block on the rear end face of the left clamping plate are respectively provided with a first left spring, a second left spring and a third left spring, and the right first sliding rod of the first sliding block, the right second sliding rod of the second sliding block and the right third sliding rod of the third sliding block on the rear end face of the right clamping plate are respectively provided with a first right spring, a second right spring and a third right spring.
And a handle is respectively arranged on the outer side surface of each clamping plate.
Third displacement grooves are respectively dug on the lower end face of the third side support frame and the upper end face of the fourth side support frame corresponding to the lower part, and third displacement grooves are respectively dug on the lower end face of the fifth side support frame and the upper end face of the sixth side support frame corresponding to the lower part; the number of the displacement assemblies is two, each displacement assembly consists of a displacement vertical plate, a second displacement groove and a sliding block, and two ends of one displacement vertical plate are connected with a third displacement groove on the third side supporting frame and a third displacement groove on the fourth side supporting frame in a sliding mode through the sliding block; a second displacement groove is formed in the inner side face of each displacement vertical plate, positioning holes distributed in a vertical row shape are formed in two sides of each second displacement groove, and each positioning hole in each vertical row is composed of at least five first through holes; and a positioning component is connected between the two displacement vertical plates in a sliding manner.
The positioning assembly consists of seventh side rods, first vertical rods, first cross rods and second cross rods, the seventh side rods are arranged at two ends of each first cross rod respectively, and each seventh side rod is connected with a second displacement groove on a corresponding displacement vertical plate in a sliding mode through a second sliding block; a first guide pipe with internal threads is arranged on the inner side surface of each seventh side rod at a position corresponding to the first through hole on the lateral displacement vertical plate, a matched first guide screw rod is rotatably arranged in the first guide pipe, and the end part of the first guide screw rod is directly connected with the outer side surface of the seventh side rod and inserted into the first through hole on the corresponding displacement vertical plate; a first vertical rod is vertically arranged above the front end face of each seventh side rod, and a second transverse rod is arranged between the tops of the two first vertical rods; the front end face of the first cross rod is provided with at least five second positioning holes, the first cross rod is connected with a drilling tool positioning assembly in a sliding mode, the drilling tool positioning assembly consists of a sliding sleeve, a workbench and iron sheets, the sliding sleeve is connected with the first cross rod in a sliding mode, the workbench is arranged on the sliding sleeve, an arc-shaped groove is dug in the middle of the workbench, the iron sheets inclined into the arc-shaped groove are arranged on two sides of the arc-shaped groove respectively, the upper end of each iron sheet is provided with an iron sheet vertically distributed with the workbench, a through hole is formed in a vertically distributed iron sheet, and the two vertical iron sheets are fixedly connected with a nut through a screw; a second guide pipe with internal threads is arranged on the front end face of the sliding sleeve, a matched second guide screw rod is rotatably inserted into the second guide pipe, and the end part of the second guide screw rod is directly communicated with the inside of the sliding sleeve.
The top of each clamping plate is respectively provided with an L-shaped positioning plate, the top surface of each L-shaped positioning plate is respectively provided with a third guide pipe with internal threads, a matched third guide screw rod is rotatably arranged in each third guide pipe, and the lower end of each third guide screw rod is directly communicated below the L-shaped positioning plate; at least five third positioning holes are formed in the upper end face of the upper supporting rod, the positions of the third guide pipes correspond to the positions of the third positioning holes, the upper end face of the L-shaped positioning plate is located above the upper end face of the upper supporting rod, and the third guide screw rods are rotatably inserted into the corresponding third guide pipes and are inserted into the corresponding third positioning holes below the third guide pipes.
The first left spring, the second left spring and the third left spring are respectively in elastic contact with the left side surface of one clamping plate end sliding block, and the first right spring, the second right spring and the third right spring are respectively in elastic contact with the right side surface of the other clamping plate end sliding block; scales are respectively arranged on the front end surface of each clamping plate.
The utility model discloses an actively beneficial effect is:
1. the utility model can fix the photovoltaic frame to be punched by arranging two clamping plates; the positioning assembly is arranged between the two displacement assemblies, so that the positioning assembly can be freely adjusted according to the punching position, and the punching stability is ensured; the situation that the drill bit runs or the drilling is inclined when the hole is drilled is avoided.
2. The utility model discloses a sliding connection has drilling tool locating component on first horizontal pole, has guaranteed the stability of boring the in-process, has reduced the error that punches, alleviates staff's burden simultaneously.
3. The utility model discloses second displacement recess sliding connection is in the same place on slider and the displacement riser is passed through at locating component both ends, and during the use, the staff can contrast the scale on the terminal surface before the grip block, and the limit punches and carries out the displacement adjustment, and is practical convenient, easy operation.
Description of the drawings:
fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the clamping plate of the present invention;
FIG. 3 is a schematic structural view of the displacement riser of the present invention;
FIG. 4 is a schematic structural view of the positioning assembly of the present invention;
fig. 5 is a schematic structural view of the drill positioning assembly of the present invention.
The specific implementation mode is as follows:
the invention will be further explained and explained with reference to the drawings, in which:
referring to fig. 1-4, a punching and positioning device for a photovoltaic rack base comprises an upper support rod 1, a lower support rod 2, a first side support rod 3, a second side support rod 4, a third side support frame 5 and a clamping plate 12, wherein the lower support rod 2 is arranged below the upper support rod 1 in parallel, the first side support rod 3 is arranged between the left ends of the upper support rod 1 and the lower support rod 2, the second side support rod 4 is arranged between the right ends of the upper support rod 1 and the lower support rod 2, the third side support frame 5 and the fourth side support frame 6 are respectively arranged at the upper end and the lower end of the inner side surface of the first side support rod 3, the fifth side support frame 7 and the sixth side support frame 8 are respectively arranged at the upper end and the lower end of the inner side surface of the second side support rod 4, and displacement assemblies are respectively connected between the third side support frame 5 and the fourth side support frame and between the fifth side support frame 7 and the sixth side support frame 8 in a sliding manner, a positioning component is arranged between the two displacement components; a middle support rod 18 is arranged between the first side support rod 3 and the first side support rod 3, two displacement grooves 1-B and two clamping grooves 12) are respectively dug on the inner side surface of the upper support rod 1, the inner side surface of the lower support rod 2 and the inner side surface of the sixth side support frame 8, and the rear end surface of each clamping plate 12 is respectively connected with the displacement groove of the upper support rod 1, the displacement groove of the lower support rod 2 and the displacement groove of the middle support rod 18 in a sliding manner through a sliding block.
A first slide bar 1-C is arranged in a displacement groove 1-B on the inner side surface of the upper support bar 1, and two ends of the first slide bar 1-C are respectively and fixedly connected with the inner walls of two ends of the displacement groove 1-B; a second slide bar 20 is arranged in a displacement groove 1-B on the inner side surface of the middle support bar 18, and two ends of the second slide bar 20 are respectively and fixedly connected with the inner walls of two ends of the displacement groove 1-B; a third slide bar 19 is arranged in a displacement groove 1-B on the inner side surface of the lower support bar 2, and two ends of the third slide bar 19 are respectively and fixedly connected with the inner walls of two ends of the displacement groove 1-B.
The two clamping plates are respectively connected with the corresponding displacement grooves in a sliding manner through sliding blocks; the rear end face of each clamping plate 12 is provided with a first slide block 12-A, a second slide block 12-B and a third slide block 12-C respectively corresponding to the position of the displacement groove on the upper support rod 1, the position of the displacement groove on the lower support rod 2 and the position of the displacement groove on the middle support rod 18, a first through hole 12-A-1 is dug on the side face of the first slide block 12-A, a second through hole 12-B-1 is dug on the side face of the second slide block 12-B, a third through hole 12-C-1 is dug on the side face of the third slide block 12-C, the first slide block 12-A is sleeved on the first slide rod 1-C through the first through hole 12-A-1, the second slide block 12-B is sleeved on the second slide rod 20 through the second through hole 12-B-1, and the third slide block 12-C is sleeved on the third slide rod 19 through the third through hole 12-C-1 (ii) a A first left spring 10, a second left spring 23 and a third left spring 21 are respectively arranged on a first slide rod on the left side of a first slide block 12-A, a second slide rod on the left side of a second slide block 12-B and a second slide rod on the left side of a third slide block 12-C on the rear end surface of a left clamping plate 12, and a first right spring 11, a second right spring 24 and a third right spring 22 are respectively arranged on a first slide rod on the right side of the first slide block 12-A, a second slide rod on the right side of the second slide block 12-B and a third slide rod on the right side of the third slide block 12-C on the rear end surface of a right clamping plate 12.
The outer side surface of each clamping plate 12 is respectively provided with a handle 12-1.
A third displacement groove 6-1 is respectively dug on the lower end surface of the third side support frame 5 and the upper end surface of the fourth side support frame 6 corresponding to the lower part, and a third displacement groove 6-1 is respectively dug on the lower end surface of the fifth side support frame 7 and the upper end surface of the sixth side support frame 8 corresponding to the lower part; the number of the displacement assemblies is two, each displacement assembly is respectively composed of a displacement vertical plate 9, a second displacement groove 9-3 and a sliding block 9-1, and two ends of one displacement vertical plate 9 are respectively connected with a third displacement groove on the third side support frame 5 and a third displacement groove on the fourth side support frame 6 in a sliding mode through the sliding block 9-1; two ends of the other displacement vertical plate 9 are respectively connected with a third displacement groove on the fifth side support frame 7 and a third displacement groove on the sixth side support frame 8 in a sliding way through a sliding block 9-1; a second displacement groove 9-3 is respectively arranged on the inner side surface of each displacement vertical plate 9, positioning holes which are distributed in a vertical row shape are respectively arranged on two sides of the second displacement groove 9-3, and each vertical row of positioning holes is composed of at least five first through holes 9-2; a positioning component is connected between the two displacement vertical plates 9 in a sliding way.
The positioning assembly consists of seventh side rods 14, first vertical rods 15, first cross rods 17 and second cross rods 17-2, the seventh side rods 14 are respectively arranged at two ends of the first cross rod 17, and each seventh side rod 14 is connected with a second displacement groove 9-3 on a corresponding displacement vertical plate 9 in a sliding manner through a second sliding block 14-1; a first guide pipe 14-2 with internal threads is arranged on the inner side surface of each seventh side rod 14 corresponding to the position of the first through hole 9-2 on the side displacement vertical plate 9, a matched first guide screw 14-3 is rotatably arranged in the first guide pipe 14-2, and the end part of the first guide screw 14-3 is directly communicated with the outer side surface of the seventh side rod 14 and inserted into the first through hole 9-2 on the corresponding displacement vertical plate 9; a first vertical rod 15 is vertically arranged above the front end surface of each seventh side rod 14, and a second cross rod 17-2 is arranged between the tops of the two first vertical rods 15; at least five second positioning holes 17-1 are formed in the front end face of the first cross rod 17, a drilling tool positioning assembly is connected onto the first cross rod 17 in a sliding mode and comprises a sliding sleeve 25, a workbench 26 and iron sheets 27, the sliding sleeve 25 is connected with the first cross rod 17 in a sliding mode, the workbench 26 is arranged on the sliding sleeve 25, an arc-shaped groove is formed in the middle of the workbench 26 in an excavating mode, the iron sheets 27 inclining into the arc-shaped groove are arranged on the two sides of the arc-shaped groove respectively, an iron sheet vertically distributed with the workbench 26 is arranged at the upper end of each iron sheet 27, through holes 27-1 are formed in the vertically distributed iron sheets, and the two vertically distributed iron sheets are fixedly connected with nuts 28-1 through screws 28; a second guide pipe 25-1 with internal threads is arranged on the front end face of the sliding sleeve 25, a matched second guide screw 25-2 is rotatably inserted in the second guide pipe 25-1, and the end part of the second guide screw 25-2 is directly communicated with the inside of the sliding sleeve 25.
The top of each clamping plate 12 is provided with an L-shaped positioning plate 13), the top surface of each L-shaped positioning plate 13 is provided with a third guide pipe 13-1 with internal threads, a matched third guide screw 13-2 is rotatably arranged in the third guide pipe 13-1, and the lower end of the third guide screw 13-2 is directly communicated below the L-shaped positioning plate 13; at least five third positioning holes 1-A are formed in the upper end face of the upper supporting rod 1, the positions of the third guide pipes 13-1 correspond to the positions of the third positioning holes 1-A, the upper end face of the L-shaped positioning plate 13 is located above the upper end face of the upper supporting rod 1, and the third guide screw 13-2 is rotatably inserted into the corresponding third guide pipe 13-1 and is inserted into the corresponding third positioning hole 1-A below.
The first left spring 10, the second left spring 23 and the third left spring 21 are respectively in elastic contact with the left side surface of the end sliding block of one clamping plate 12, and the first right spring 11, the second right spring 24 and the third right spring 22 are respectively in elastic contact with the right side surface of the end sliding block of the other clamping plate 12; the front end surface of each clamping plate 12 is provided with a scale 26-1.
In the above description, when the first right spring 11, the second right spring 24, and the third right spring 22, and the first left spring 10, the second left spring 23, and the third left spring 21 are in the reset state, respectively, the two clamping plates 12 are stuck together.
The position of the second guide tube 25-1 in the above description corresponds to the position of the second positioning hole 17-1 on the front end surface of the first rail 17.
The working principle is as follows:
the photovoltaic frame is placed between the two clamping plates 12 to be clamped, is rotatably inserted into the corresponding third guide pipe 13-1 through a third guide screw 13-2, and is inserted into a third positioning hole 1-A in the top surface of the upper support frame 1;
placing the electric drill in the arc-shaped groove on the workbench 26, penetrating through the through hole 27-1 on the iron sheet through the screw 28, screwing the matched nut 28-1 for locking and fixing;
according to the position of the photovoltaic frame, the position of the drilling tool assembly on the first cross bar 17 is adjusted, and the drilling tool assembly is rotatably inserted into the corresponding second guide pipe 25 through the second guide pipe screw 25-1 and is inserted into the second positioning hole 17-1 on the corresponding first cross bar 17;
pushing the second cross rod 17-2 to enable the drill bit to be aligned with the photovoltaic frame, adjusting the position of the seventh side rod 14 on the displacement vertical plate 9 according to the height of the punching position, and rotatably inserting the seventh side rod 14 into the corresponding first guide pipe 14-2 through the first guide screw 14-3 on the inner side surface of the seventh side rod 14 and into the first through hole 9-2 on the corresponding displacement vertical plate 9; after the preparation is finished, the electric drill can be started to punch.
The utility model can fix the drilling tool on the positioning component by arranging the positioning component, thereby reducing the burden of the working personnel during the construction of holding the electric drill by hand and simultaneously ensuring the stability of punching; the position between the drilling tool and the photovoltaic frame can be freely adjusted by arranging the displacement assembly; the scales are arranged on the front end face of the clamping plate, so that the photovoltaic frame can be fixed, and the vertical distances of punched holes are the same; convenient use, simple operation and easy popularization.

Claims (8)

1. The utility model provides a photovoltaic frame base positioner that punches, includes upper portion bracing piece (1), lower part bracing piece (2), first side support pole (3), second side support pole (4), third side support frame (5) and grip block (12), its characterized in that: a lower supporting rod (2) is arranged below the upper supporting rod (1) in parallel, a first side supporting rod (3) is arranged between the left ends of the upper supporting rod (1) and the lower supporting rod (2), a second side supporting rod (4) is arranged between the right ends of the upper supporting rod (1) and the lower supporting rod (2), the upper end and the lower end of the inner side surface of the first side supporting rod (3) are respectively provided with a third side supporting frame (5) and a fourth side supporting frame (6), the upper end and the lower end of the inner side surface of the second side supporting rod (4) are respectively provided with a fifth side supporting frame (7) and a sixth side supporting frame (8), displacement assemblies are respectively connected between the third side support frame (5) and the fourth side support frame (6) and between the fifth side support frame (7) and the sixth side support frame (8) in a sliding manner, and a positioning assembly is arranged between the two displacement assemblies; be provided with middle part bracing piece (18) between first side bracing piece (3) and first side bracing piece (3) dig respectively on the medial surface of upper portion bracing piece (1), the medial surface of lower part bracing piece (2) and sixth side bracing piece (8) the displacement recess (1-B), grip block (12) are two, and the rear end face of every grip block (12) respectively with the displacement recess of upper portion bracing piece (1), the displacement recess of lower part bracing piece (2) and the displacement recess sliding connection of middle part bracing piece (18) together through the slider.
2. The photovoltaic frame base punching and positioning device of claim 1, wherein: a first sliding rod (1-C) is arranged in a displacement groove (1-B) on the inner side surface of the upper supporting rod (1), and two ends of the first sliding rod (1-C) are respectively and fixedly connected with the inner walls of two ends of the displacement groove (1-B); a second slide bar (20) is arranged in a displacement groove (1-B) on the inner side surface of the middle support bar (18), and two ends of the second slide bar (20) are respectively and fixedly connected with the inner walls of two ends of the displacement groove (1-B); a third slide bar (19) is arranged in a displacement groove (1-B) on the inner side surface of the lower support bar (2), and two ends of the third slide bar (19) are respectively and fixedly connected with the inner walls of two ends of the displacement groove (1-B).
3. The photovoltaic frame base punching and positioning device of claim 1, wherein: the two clamping plates are respectively connected with the corresponding displacement grooves in a sliding manner through sliding blocks; the rear end face of each clamping plate (12) is provided with a first sliding block (12-A), a second sliding block (12-B) and a third sliding block (12-C) at positions corresponding to the displacement grooves on the upper supporting rod (1), the displacement grooves on the lower supporting rod (2) and the displacement grooves on the middle supporting rod (18), a first through hole (12-A-1) is dug in the side face of the first sliding block (12-A), a second through hole (12-B-1) is dug in the side face of the second sliding block (12-B), a third through hole (12-C-1) is dug in the side face of the third sliding block (12-C), and the first sliding block (12-A) is sleeved on the first sliding rod (1-C) through the first through hole (12-A-1), the second sliding block (12-B) is sleeved on the second sliding rod (20) through a second through hole (12-B-1), and the third sliding block (12-C) is sleeved on the third sliding rod (19) through a third through hole (12-C-1); a first left spring (10), a second left spring (23) and a third left spring (21) are respectively arranged on a first sliding rod on the left side of a first sliding block (12-A) on the rear end face of a left clamping plate (12), a second sliding rod on the left side of a second sliding block (12-B) and a second sliding rod on the left side of a third sliding block (12-C), and a first right spring (11), a second right spring (24) and a third right spring (22) are respectively arranged on a first sliding rod on the right side of the first sliding block (12-A), a second sliding rod on the right side of the second sliding block (12-B) and a third sliding rod on the right side of the third sliding block (12-C) on the rear end face of a right clamping plate (12).
4. The photovoltaic frame base punching and positioning device according to claim 3, characterized in that: and a handle (12-1) is respectively arranged on the outer side surface of each clamping plate (12).
5. The photovoltaic frame base punching and positioning device of claim 1, wherein: third displacement grooves (6-1) are respectively dug on the lower end face of the third side support frame (5) and the upper end face of the fourth side support frame (6) corresponding to the lower part, and third displacement grooves (6-1) are respectively dug on the lower end face of the fifth side support frame (7) and the upper end face of the sixth side support frame (8) corresponding to the lower part; the number of the displacement assemblies is two, each displacement assembly is respectively composed of a displacement vertical plate (9), a second displacement groove (9-3) and a sliding block (9-1), and two ends of one displacement vertical plate (9) are respectively connected with a third displacement groove on the third side support frame (5) and a third displacement groove on the fourth side support frame (6) in a sliding mode through the sliding block (9-1); two ends of the other displacement vertical plate (9) are respectively connected with a third displacement groove on the fifth side support frame (7) and a third displacement groove on the sixth side support frame (8) in a sliding way through a sliding block (9-1); a second displacement groove (9-3) is respectively formed in the inner side face of each displacement vertical plate (9), positioning holes which are distributed in a vertical row shape are respectively formed in two sides of each second displacement groove (9-3), and each vertical row of positioning holes is composed of at least five first through holes (9-2); a positioning component is connected between the two displacement vertical plates (9) in a sliding way.
6. The photovoltaic frame base punching and positioning device according to claim 1 or 5, characterized in that: the positioning assembly consists of seventh side rods (14), first vertical rods (15), first cross rods (17) and second cross rods (17-2), wherein the seventh side rods (14) are respectively arranged at two ends of each first cross rod (17), and each seventh side rod (14) is connected with a second displacement groove (9-3) on a corresponding displacement vertical plate (9) in a sliding mode through a second sliding block (14-1); a first guide pipe (14-2) with internal threads is arranged on the inner side surface of each seventh side rod (14) at a position corresponding to a first through hole (9-2) in the lateral displacement vertical plate (9), a matched first guide screw (14-3) is rotationally arranged in the first guide pipe (14-2), and the end part of the first guide screw (14-3) is directly communicated with the outer side surface of the seventh side rod (14) and inserted into the first through hole (9-2) in the corresponding displacement vertical plate (9); a first vertical rod (15) is vertically arranged above the front end surface of each seventh side rod (14), and a second cross rod (17-2) is arranged between the tops of the two first vertical rods (15); at least five second positioning holes (17-1) are arranged on the front end surface of the first cross bar (17), the first cross rod (17) is connected with a drilling tool positioning component in a sliding way, the drilling tool positioning component consists of a sliding sleeve (25), a workbench (26) and an iron sheet (27), the sliding sleeve (25) is connected with the first cross rod (17) in a sliding way, a workbench (26) is arranged on the sliding sleeve (25), an arc-shaped groove is dug in the middle of the workbench (26), iron sheets (27) inclined towards the inside of the arc-shaped groove are respectively arranged at two sides of the arc-shaped groove, an iron sheet vertically distributed with the workbench (26) is arranged at the upper end of each iron sheet (27), through holes (27-1) are formed in the vertically distributed iron sheets, and the two vertically distributed iron sheets are fixedly connected with a nut (28-1) through a screw rod (28); a second guide pipe (25-1) with internal threads is arranged on the front end face of the sliding sleeve (25), a matched second guide screw rod (25-2) is rotatably inserted into the second guide pipe (25-1), and the end part of the second guide screw rod (25-2) is communicated with the inside of the sliding sleeve (25).
7. The photovoltaic frame base punching and positioning device according to claim 3, characterized in that: the top of each clamping plate (12) is respectively provided with an L-shaped positioning plate (13), the top surface of each L-shaped positioning plate (13) is respectively provided with a third guide pipe (13-1) with internal threads, a matched third guide screw (13-2) is rotatably arranged in each third guide pipe (13-1), and the lower end of each third guide screw (13-2) is directly communicated below the L-shaped positioning plate (13); at least five third positioning holes (1-A) are formed in the upper end face of the upper supporting rod (1), the positions of the third guide pipes (13-1) correspond to the positions of the third positioning holes (1-A), the upper end face of the L-shaped positioning plate (13) is located above the upper end face of the upper supporting rod (1), and the third guide screw rods (13-2) are rotatably inserted into the corresponding third guide pipes (13-1) and are inserted into the corresponding third positioning holes (1-A) below.
8. The photovoltaic frame base punching and positioning device according to claim 3, characterized in that: the first left spring (10), the second left spring (23) and the third left spring (21) are respectively in elastic contact with the left side surface of the end sliding block of one clamping plate (12), and the first right spring (11), the second right spring (24) and the third right spring (22) are respectively in elastic contact with the right side surface of the end sliding block of the other clamping plate (12); scales (26-1) are respectively arranged on the front end surface of each clamping plate (12).
CN202022525577.8U 2020-11-05 2020-11-05 Photovoltaic frame base positioner that punches Active CN214053749U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022525577.8U CN214053749U (en) 2020-11-05 2020-11-05 Photovoltaic frame base positioner that punches

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022525577.8U CN214053749U (en) 2020-11-05 2020-11-05 Photovoltaic frame base positioner that punches

Publications (1)

Publication Number Publication Date
CN214053749U true CN214053749U (en) 2021-08-27

Family

ID=77399480

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022525577.8U Active CN214053749U (en) 2020-11-05 2020-11-05 Photovoltaic frame base positioner that punches

Country Status (1)

Country Link
CN (1) CN214053749U (en)

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