CN212527441U - Automatic turnover mechanism of bus duct production line - Google Patents
Automatic turnover mechanism of bus duct production line Download PDFInfo
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- CN212527441U CN212527441U CN202020936076.6U CN202020936076U CN212527441U CN 212527441 U CN212527441 U CN 212527441U CN 202020936076 U CN202020936076 U CN 202020936076U CN 212527441 U CN212527441 U CN 212527441U
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- bus duct
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Abstract
The utility model relates to a bus duct production facility technical field, and disclose an automatic tilting mechanism of bus duct production line, solved present equipment and can not carry out effectual upset processing to the bus duct of equidimension not to reduce bus duct processing and production efficiency's problem, it includes places the board, place the middle part of board and seted up the shifting chute, place the bottom of board and install the lateral adjustment mechanism, the lateral adjustment mechanism installs the movable block, the top fixed mounting of movable block has the slider, the slider slip joint is in the inside of shifting chute, the middle part of slider is installed first vertical adjustment mechanism, the top of first vertical adjustment mechanism is installed first movable plate; this automatic tilting mechanism of bus duct production line can press from both sides tightly, fix and the upset to the bus duct of different length and size to can effectually process the bus duct, also improve bus duct processing and production efficiency simultaneously, can satisfy the processing demand of different bus ducts.
Description
Technical Field
The utility model belongs to the technical field of bus duct production facility, specifically be an automatic tilting mechanism of bus duct production line.
Background
The bus duct is a new circuit mode, which takes copper or aluminum as a conductor, uses non-olefinic insulating support, and then is installed in a metal groove to form a new conductor; bus ducts are used to distribute large amounts of power to the various components of a decentralized system, and have increasingly replaced electrical wiring and cabling in indoor low-voltage power transmission mains engineering projects.
The bus duct can produce different sizes according to practical use requirements, and simultaneously, each surface of the bus duct needs to be processed in the production process; and present equipment can not carry out effectual upset processing to the bus duct of equidimension not to reduce bus duct processing and production efficiency, can not satisfy the user demand of bus duct processing production.
SUMMERY OF THE UTILITY MODEL
To the above situation, for overcoming prior art's defect, the utility model provides an automatic tilting mechanism of bus duct production line has effectually solved present equipment and can not carry out effectual upset processing to the bus duct of equidimension not to bus duct processing and production efficiency's problem has been reduced.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an automatic tilting mechanism of bus duct production line, including placing the board, the shifting chute has been seted up at the middle part of placing the board, place the bottom of board and install horizontal adjustment mechanism, horizontal adjustment mechanism installs the movable block, the top fixed mounting of movable block has the slider, the slider slip joint is in the inside of shifting chute, the mid-mounting of slider has first vertical adjustment mechanism, first movable plate is installed at first vertical adjustment mechanism's top, one side movable mounting of first movable plate has the removal clamp plate, place one side of board and install the vertical adjustment mechanism of second, the second movable plate is installed at the top of the vertical adjustment mechanism of second, first motor is installed to one side of second movable plate, the output fixedly connected with pivot of first motor, the one end of pivot runs through second movable plate and fixedly connected with fixed clamp plate.
Preferably, the transverse adjusting mechanism comprises two fixing blocks, a threaded rod and a second motor, the two fixing blocks are fixedly installed at two ends of the bottom of the placing plate, the threaded rod is movably installed between the two fixing blocks, the second motor is installed on one side of one of the fixing blocks, one end of the threaded rod is fixedly connected with the output end of the second motor, and the moving block is in threaded connection with the surface of the threaded rod.
Preferably, first vertical adjustment mechanism and the vertical adjustment mechanism of second all include square inside groove sleeve pipe, square intubate, third motor and screw shaft, and two square inside groove sleeve pipes are connected with placing board and slider fixed respectively, and square intubate activity is pegged graft in the sheathed tube inside of square inside groove, and first movable plate and second movable plate are fixed mounting respectively at the top of two square intubate, and the third motor is installed in the sheathed tube bottom of square inside groove, and screw shaft fixed connection is at the output of third motor, and the screw shaft runs through square inside groove sleeve pipe and is connected with square intubate.
Preferably, the bottom of the square intubation inner cavity is provided with a threaded connection port, and the threaded shaft is in threaded connection with the square intubation through the threaded connection port.
Preferably, a convex bearing is fixedly installed on one side of the first moving plate, and the moving clamping plate is fixedly installed at the convex end of the convex bearing.
Preferably, the clamping pads are arranged on the opposite sides of the movable clamping plate and the fixed clamping plate.
Compared with the prior art, the beneficial effects of the utility model are that:
(1) the device comprises a moving groove, a transverse adjusting mechanism, a moving block, a sliding block, a first vertical adjusting mechanism, a first moving plate, a moving clamping plate, a second vertical adjusting mechanism, a second moving plate, a first motor, a rotating shaft and a fixed clamping plate; the automatic turnover mechanism of the bus duct production line can clamp, fix and turn over bus ducts with different lengths and sizes, so that the bus ducts can be effectively processed, meanwhile, the processing and production efficiency of the bus ducts is improved, and the processing requirements of different bus ducts can be met;
(2) and in operation: firstly, placing a bus duct body on the surface of a placing plate, then starting a second motor, enabling a threaded rod to drive a moving block to move, enabling the moving block to move and driving a sliding block to move in a moving groove, and enabling the moving block to move and driving a first vertical adjusting mechanism, a first moving plate and a moving clamping plate to move towards a fixed clamping plate, so that the moving clamping plate and the fixed clamping plate are matched to clamp and fix the bus duct body; then two third motors are started synchronously, two threaded shafts drive two square insertion pipes to move upwards synchronously inside two square inner groove sleeves respectively, the two square insertion pipes move upwards to synchronously drive a first moving plate and a second moving plate to move upwards, so that a movable clamping plate and a fixed clamping plate are provided with a movable clamping and fixed bus duct body to move upwards, then the first motor is started, a rotating shaft drives the fixed clamping plate to rotate, and meanwhile, the movable clamping plate can synchronously rotate along with the fixed clamping plate through a convex bearing and a clamping fixed bus duct body, so that the bus duct body can be effectively overturned.
Drawings
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.
In the drawings:
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the lateral adjustment mechanism of the present invention;
fig. 3 is an enlarged schematic structural view of the first vertical adjustment mechanism and the second vertical adjustment mechanism of the present invention;
in the figure: 1. placing the plate; 2. a moving groove; 3. a lateral adjustment mechanism; 301. a fixed block; 302. a threaded rod; 303. a second motor; 4. a moving block; 5. a slider; 6. a first vertical adjustment mechanism; 7. a first moving plate; 8. moving the clamping plate; 9. a second vertical adjustment mechanism; 10. a second moving plate; 11. a first motor; 12. a rotating shaft; 13. fixing the clamping plate; 14. a square internal groove sleeve; 15. a square cannula; 16. a third motor; 17. a threaded shaft; 18. a threaded connection port.
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 some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the first embodiment, as shown in fig. 1 and 2, the utility model comprises a placing plate 1, a moving groove 2 is formed in the middle of the placing plate 1, a slider 5 can stably move through the arrangement of the moving groove 2, a horizontal adjusting mechanism 3 is installed at the bottom of the placing plate 1, a moving block 4 is installed on the horizontal adjusting mechanism 3, a slider 5 is fixedly installed at the top of the moving block 4, the slider 5 can effectively move through the arrangement of the moving block 4, the slider 5 is slidably connected in the moving groove 2, a first vertical adjusting mechanism 6 is installed at the middle of the slider 5, a first moving plate 7 is installed at the top of the first vertical adjusting mechanism 6, a moving clamping plate 8 is movably installed at one side of the first moving plate 7, a second vertical adjusting mechanism 9 is installed at one side of the placing plate 1, and a second moving plate 10 is installed at the top of the second vertical adjusting mechanism 9, first motor 11 is installed to one side of second movable plate 10, and first motor 11's output fixedly connected with pivot 12, and second movable plate 10 and fixedly connected with fixed clamping plate 13 are run through to the one end of pivot 12, through the setting of removing clamping plate 8 and fixed clamping plate 13, can effectually press from both sides tightly fixedly to the generating line cell body.
In the second embodiment, on the basis of the first embodiment, as shown in fig. 2, the lateral adjustment mechanism 3 includes two fixing blocks 301, a threaded rod 302 and a second motor 303, the two fixing blocks 301 are fixedly installed at two ends of the bottom of the placing plate 1, the threaded rod 302 is movably installed between the two fixing blocks 301, the second motor 303 is installed at one side of one of the fixing blocks 301, one end of the threaded rod 302 is fixedly connected with an output end of the second motor 303, and the moving block 4 is in threaded connection with the surface of the threaded rod 302, so that stable and effective lateral movement power can be provided.
Third embodiment, on the basis of the first embodiment, as shown in fig. 3, each of the first vertical adjusting mechanism 6 and the second vertical adjusting mechanism 9 includes a square inner groove sleeve 14, a square insertion tube 15, a third motor 16 and a threaded shaft 17, the two square inner groove sleeves 14 are respectively and fixedly connected with the placing plate 1 and the slider 5, the square insertion tube 15 is movably inserted into the square inner groove sleeve 14, the first moving plate 7 and the second moving plate 10 are respectively and fixedly mounted on the top of the two square insertion tubes 15, the third motor 16 is mounted on the bottom of the square inner groove sleeve 14, the threaded shaft 17 is fixedly connected to the output end of the third motor 16, and the threaded shaft 17 penetrates through the square inner groove sleeve 14 and is connected with the square insertion tube 15, so that stable and effective vertical moving power can be provided.
In the fourth embodiment, on the basis of the third embodiment, as shown in fig. 3, a threaded connection port 18 is formed at the bottom of the inner cavity of the square insertion tube 15, and the threaded shaft 17 is in threaded connection with the square insertion tube 15 through the threaded connection port 18, so that connection can be effectively performed.
Fifth embodiment, on the basis of the first embodiment, as shown in fig. 1, a convex bearing is fixedly installed on one side of the first moving plate 7, and the moving clamping plate 8 is fixedly installed on a convex end of the convex bearing, so that the moving clamping plate 8 can effectively rotate.
Sixth embodiment, on the basis of the first embodiment, as shown in fig. 1, clamping pads are installed on opposite sides of the movable clamping plate 8 and the fixed clamping plate 13, so that the busbar slot can be stably and effectively clamped and fixed.
In this embodiment: the first motor 11 adopts a positive and negative rotation motor of 6D300GU-C type; the second motor 303 and the third motor 16 are both positive and negative rotating motors of 6M200GU-C type.
The working principle is as follows: firstly, placing a bus duct body on the surface of a placing plate 1, then starting a second motor 303, enabling a threaded rod 302 to drive a moving block 4 to move, enabling the moving block 4 to move to drive a sliding block 5 to move in a moving groove 2, and enabling the moving block 4 to move to drive a first vertical adjusting mechanism 6, a first moving plate 7 and a moving clamping plate 8 to move towards a fixed clamping plate 13, so that the moving clamping plate 8 and the fixed clamping plate 13 are matched to clamp and fix the bus duct body; then, the two third motors 16 are synchronously started, the two threaded shafts 17 drive the two square insertion tubes 15 to synchronously move upwards in the two square inner groove sleeves 14 respectively, the two square insertion tubes 15 move upwards to synchronously drive the first movable plate 7 and the second movable plate 10 to move upwards, so that the movable clamping plate 8 and the fixed clamping plate 13 drive the clamping fixed busbar groove body to move upwards, then the first motor 11 is started, the rotating shaft 12 drives the fixed clamping plate 13 to rotate, and meanwhile, the movable clamping plate 8 can synchronously rotate along with the fixed clamping plate 13 through the convex bearing and the clamping fixed busbar groove body, so that the busbar groove body can be effectively turned.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides an automatic tilting mechanism of bus duct production line, is including placing board (1), its characterized in that: a moving groove (2) is formed in the middle of the placing plate (1), a transverse adjusting mechanism (3) is installed at the bottom of the placing plate (1), a moving block (4) is installed on the transverse adjusting mechanism (3), a sliding block (5) is fixedly installed at the top of the moving block (4), the sliding block (5) is slidably clamped in the moving groove (2), a first vertical adjusting mechanism (6) is installed in the middle of the sliding block (5), a first moving plate (7) is installed at the top of the first vertical adjusting mechanism (6), a moving clamping plate (8) is movably installed at one side of the first moving plate (7), a second vertical adjusting mechanism (9) is installed at one side of the placing plate (1), a second moving plate (10) is installed at the top of the second vertical adjusting mechanism (9), a first motor (11) is installed at one side of the second moving plate (10), and a rotating shaft (12) is fixedly connected to the output end of the first, one end of the rotating shaft (12) penetrates through the second moving plate (10) and is fixedly connected with a fixed clamping plate (13).
2. The automatic turnover mechanism of the bus duct production line of claim 1, wherein: the transverse adjusting mechanism (3) comprises two fixing blocks (301), a threaded rod (302) and a second motor (303), the two fixing blocks (301) are fixedly installed at two ends of the bottom of the placing plate (1), the threaded rod (302) is movably installed between the two fixing blocks (301), the second motor (303) is installed on one side of one fixing block (301), one end of the threaded rod (302) is fixedly connected with the output end of the second motor (303), and a moving block (4) is in threaded connection with the surface of the threaded rod (302).
3. The automatic turnover mechanism of the bus duct production line of claim 1, wherein: first vertical adjustment mechanism (6) and second vertical adjustment mechanism (9) all include square inside groove sleeve pipe (14), square intubate (15), third motor (16) and screw shaft (17), two square inside groove sleeve pipes (14) respectively with place board (1) and slider (5) fixed connection, square intubate (15) activity is pegged graft in the inside of square inside groove sleeve pipe (14), first movable plate (7) and second movable plate (10) fixed mounting are respectively at the top of two square intubate (15), the bottom at square inside groove sleeve pipe (14) is installed in third motor (16), screw shaft (17) fixed connection is at the output of third motor (16), and screw shaft (17) run through square inside groove sleeve pipe (14) and are connected with square intubate (15).
4. The automatic turnover mechanism of the bus duct production line of claim 3, wherein: the bottom of the inner cavity of the square insertion tube (15) is provided with a threaded connection port (18), and the threaded shaft (17) is in threaded connection with the square insertion tube (15) through the threaded connection port (18).
5. The automatic turnover mechanism of the bus duct production line of claim 1, wherein: a convex bearing is fixedly installed on one side of the first moving plate (7), and a moving clamping plate (8) is fixedly installed at the protruding end of the convex bearing.
6. The automatic turnover mechanism of the bus duct production line of claim 1, wherein: clamping pads are arranged on the opposite sides of the movable clamping plate (8) and the fixed clamping plate (13).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020936076.6U CN212527441U (en) | 2020-05-28 | 2020-05-28 | Automatic turnover mechanism of bus duct production line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020936076.6U CN212527441U (en) | 2020-05-28 | 2020-05-28 | Automatic turnover mechanism of bus duct production line |
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CN212527441U true CN212527441U (en) | 2021-02-12 |
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CN202020936076.6U Expired - Fee Related CN212527441U (en) | 2020-05-28 | 2020-05-28 | Automatic turnover mechanism of bus duct production line |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114955929A (en) * | 2022-05-25 | 2022-08-30 | 西南科技大学 | Adjustable loading attachment is used in intelligence manufacturing |
-
2020
- 2020-05-28 CN CN202020936076.6U patent/CN212527441U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114955929A (en) * | 2022-05-25 | 2022-08-30 | 西南科技大学 | Adjustable loading attachment is used in intelligence manufacturing |
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GR01 | Patent grant | ||
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20210212 |
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CF01 | Termination of patent right due to non-payment of annual fee |