CN211804812U - Manufacturing device of direct-drive busbar - Google Patents

Abstract

The utility model provides a manufacturing device of a direct-drive row, which belongs to the technical field of direct-drive row manufacturing, and comprises a rolling arc device of the direct-drive row, which is used for rolling arc processing during primary processing of the direct-drive row; the drilling device of the direct-drive gang is provided with a bench drill and a drilling positioning assembly, the drilling positioning assembly is used for drilling and positioning the drilling workpiece of the direct-drive gang, and the bench drill is used for drilling the drilling workpiece of the direct-drive gang; the fixed-length device of the direct drive row is provided with a cutting machine, a sawing positioning assembly and a sawing guide rail assembly, the sawing guide rail assembly is used for positioning the fixed-length workpiece after drilling processing, and the cutting machine can move along the sawing guide rail assembly so as to complete sawing of the fixed-length workpiece; the welding device of the direct-drive busbar is provided with a high-frequency heating pipe for heating the soldering lug. The utility model discloses simple structure, the machining precision is high, has not only effectively improved the manufacturing efficiency who directly drives the row, has effectively guaranteed simultaneously to directly drive the uniformity of arranging the processing.

Description

Manufacturing device of direct-drive busbar

Technical Field

The utility model belongs to the technical field of directly drive row and make, especially, relate to a directly drive manufacturing installation who arranges.

Background

Wind power generation is the fastest-developing green energy technology in the world, people pay attention to some limitations on land wind energy utilization while land wind power field construction develops rapidly, the sea becomes a rapidly-developing wind power market due to abundant wind energy resources on the sea and feasibility of the current technology, and wind power can certainly become an important energy source for sustainable development of coastal areas in east China along with development maturity of the offshore wind power field technology.

An offshore wind power plant is a novel power plant which generates power by using offshore wind resources. Under the condition of increasingly severe petroleum resource situation, all countries project eyes to sea areas with huge wind power resources, and a plurality of offshore wind power plants are built in a plurality of countries in Europe and are huge in scale. China is also increasingly involved in the field of offshore wind power generation. The core of offshore wind power generation is an offshore generator set, and normal operation of the offshore generator set directly influences normal operation of offshore power generation, so that it is important to ensure normal operation of the offshore generator set, and if precision of parts of an assembled motor cannot be guaranteed, the motor cannot be assembled, or accidents occur in the working process of the motor after the assembly.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a simple structure, the machining precision is high, can effectively improve simultaneously and directly drive row manufacturing efficiency to can effectively guarantee to directly drive a manufacturing installation who directly drives row of processing uniformity.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this: the manufacturing installation of direct-drive row includes:

the arc rolling device of the direct drive row is used for arc rolling processing during primary processing of the direct drive row;

the drilling device of the direct-drive gang is provided with a bench drill and a drilling positioning assembly, the drilling positioning assembly is used for drilling and positioning the drilling workpiece of the direct-drive gang, and the bench drill is used for drilling the drilling workpiece of the direct-drive gang;

the fixed-length device of the direct drive row is provided with a cutting machine, a sawing positioning assembly and a sawing guide rail assembly, the sawing guide rail assembly is used for positioning the fixed-length workpiece after drilling processing, and the cutting machine can move along the sawing guide rail assembly so as to complete sawing of the fixed-length workpiece;

the welding device of the direct-drive busbar is provided with a high-frequency heating pipe for heating the soldering lug.

Further, drilling equipment that directly drives row includes bench drill, drilling location assembly, drilling clamp assembly, moving platform and drilling frock frame, two bench drill symmetry is placed the upper end of drilling frock frame, moving platform sets up two between the bench drill, simultaneously moving platform's lower extreme with the up end contact of drilling frock frame, install on its upper end drilling location assembly with drilling clamp assembly, moving platform's both ends set up respectively between the drill bit of bench drill and the installation base, drilling location assembly symmetry is installed moving platform's both ends, drilling clamp assembly symmetry is installed moving platform's horizontal central line both sides.

Furthermore, the drilling positioning assembly comprises a supporting plate, a drilling template and a horizontal supporting plate, the side wall of the horizontal supporting plate is connected with the side wall of the supporting plate, the drilling template is arranged above the horizontal supporting plate and keeps a certain distance with the horizontal supporting plate in the vertical direction, then the drilling template is arranged at the upper end of the supporting plate through bolts, and the adjustment of the vertical distance between the drilling template and the horizontal supporting plate can be realized by adjusting the bolts for connecting the drilling template and the supporting plate;

the drilling clamping assembly comprises a drilling clamping cylinder, a cylinder support and a positioning block, the cylinder support is installed at the upper end of the moving platform, the positioning block is installed on the right side of the upper end of the cylinder support, the drilling clamping cylinder is installed on the left side of the upper end of the cylinder support, and the extending end of the drilling clamping cylinder is opposite to the positioning block.

Further, moving platform includes table surface, movable support and universal ball, movable support sets up table surface's below, and both connect through adjusting screw, and adjusting screw realizes through threaded connection table surface with remove the perpendicular distance between the support, the both ends of table surface lower extreme and it all installs a plurality ofly to remove the both ends of support lower extreme universal ball.

Further, the scale device of directly driving row includes the cutting machine, saw cuts the location assembly, saw cuts tight assembly, saw cuts guide rail assembly and scale frock frame, the cutting machine is installed saw cut on the guide rail assembly, saw cut the location assembly, saw cut tight assembly and saw cut the guide rail assembly and all install on the last plane of scale frock frame, simultaneously saw cut tight assembly setting and be in the intermediate position department of scale frock frame, and its long limit with planar long limit is perpendicular, two on the scale frock frame saw cut location assembly and two saw cut the guide rail assembly symmetry respectively and set up saw cut the both sides of pressing from both sides tight assembly, just saw cut the guide rail assembly setting and be in saw cut the outside of location assembly.

Furthermore, the sawing positioning assembly comprises a positioning tongue plate, a positioning support and positioning columns, the positioning tongue plate is arranged at the upper end of the positioning support, the left end of the positioning tongue plate is aligned with the left end of the positioning support, and the positioning columns are detachably arranged at the upper end of the right end of the positioning tongue plate.

Further, welding set of directly driving row includes both ends welding position assembly, movable guide rail assembly, welding clamp assembly, welds wing welding position assembly, welded platform and welding frock frame, welded platform sets up welding frock frame top, and its lower plane passes through movable guide rail assembly with welding frock frame sliding connection, two both ends welding position assembly symmetry is installed planar both ends on the welded platform, welding clamp assembly installs planar intermediate position on the welded platform, two weld wing welding position assembly install welded platform's last plane, two simultaneously two weld wing welding position assembly symmetry sets up the both sides of welding clamp assembly.

Furthermore, both ends welding position assembly is including supporting riser, location layer board and location pillar, the location layer board is installed perpendicularly support on the lateral wall of riser, it is a plurality of location pillar demountable installation be in the upper end of location layer board.

Further, it includes air cylinder, thermal-insulated ceramic tube chuck, cylinder support assembly, thermal-insulated cushion, tray and high-frequency heating pipe to weld wing welding position assembly, air cylinder installs air cylinder supports the upper end of assembly, simultaneously air cylinder's the end that stretches out sets up downwards, and it passes air cylinder support assembly with thermal-insulated ceramic tube chuck is connected, high-frequency heating pipe cover is in the lower extreme of thermal-insulated ceramic tube chuck, the tray is installed on the air cylinder supports the assembly, and its setting is in the below of thermal-insulated ceramic tube chuck, thermal-insulated cushion is installed the upper end of tray.

Compared with the prior art, the manufacturing installation who directly drives row have following advantage:

(1) the manufacturing device of the utility model can realize the large-scale and standardized production of direct-drive emission, and effectively improve the production efficiency;

(2) the manufacturing device of the utility model is simple to operate, common staff can be operated on duty after short-term training, and compared with the high-standard mechanical equipment used by high professional technicians, the manufacturing device has the advantage of operability;

(3) the drilling positioning assembly of the drilling device processes the drilling workpiece to be processed, so that the consistency of the drilling of the plurality of drilling workpieces is effectively ensured;

(4) the manufacturing device of the utility model is suitable for workpieces to be processed with different models, and effectively improves the practicability of the device;

(5) the sizing device can cut the to-be-processed sizing workpiece into a sizing saw at one time, so that the axial dimension error of the sizing workpiece is effectively reduced, and the requirement on the axial angle of the end part of the sizing workpiece is also improved;

(6) welding set be provided with high-frequency heating pipe, when effectively having avoided welding workpiece and welding wing welding, directly drive row inside appearance welding defect.

Drawings

The accompanying drawings, which form a part hereof, 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 without undue limitation. In the drawings:

fig. 1 is a schematic structural diagram of a manufacturing apparatus for a direct-drive busbar according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a drilling device of a direct drive row according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a drilling positioning assembly according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a drilling clamping assembly according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a mobile platform according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a direct-drive gang length-fixing device according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a sawing positioning assembly according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of a sawing clamping assembly according to an embodiment of the present invention;

fig. 9 is a schematic structural view of a sawing guide rail assembly according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a welding device for direct-drive busbar according to an embodiment of the present invention;

fig. 11 is a schematic structural view of a two-end welding positioning assembly according to an embodiment of the present invention;

fig. 12 is a schematic structural view of a welding clamping assembly according to an embodiment of the present invention;

fig. 13 is a schematic structural view of a welding fin welding positioning assembly according to an embodiment of the present invention.

Description of reference numerals:

100. a direct-drive arc rolling device;

200. a drilling device for direct drive; 1. bench drilling; 2. a drilling positioning assembly; 3. a drilling clamping assembly; 4. a mobile platform; 5. drilling a tool frame; 6. a support plate; 7. drilling a template; 8. a horizontal support plate; 9. drilling and clamping the cylinder; 10. a cylinder support; 11. positioning blocks; 12. a rubber pad; 13. a work table; 14. moving the support; 15. a universal ball; 16. drilling a workpiece;

300. a sizing device for direct drive; 21. a cutter; 22. a sawing positioning assembly; 23. a sawing clamping assembly; 24. sawing a guide rail assembly; 25. a sizing tool frame; 26. positioning the tongue plate; 27. positioning the bracket; 28. a positioning column; 29. sawing and clamping the cylinder; 30. a cylinder support frame; 31. positioning a plate; 32. a rubber cushion; 33. moving the guide rail slider assembly; 34. a guide rail large bracket; 35. moving the small support; 36. a slider connection; 37. sizing the workpiece;

400. a welding device for direct drive; 41. welding and positioning assemblies at two ends; 42. a movable guide rail assembly; 43. welding the clamping assembly; 44. welding a fin welding positioning assembly; 45. welding a platform; 46. welding the tool frame; 47. a support vertical plate; 48. positioning a supporting plate; 49. positioning the strut; 50. welding a clamping cylinder; 51. a cushion pad; 52. a limiting block; 53. a cylinder frame; 54. an adjusting cylinder; 55. a heat insulation porcelain tube chuck; 56. a cylinder support assembly; 57. a heat insulation cushion block; 58. a tray; 59. a high-frequency heating pipe; 60. welding the fin; 61. and (5) welding the workpiece.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1-13, the present invention relates to a manufacturing device for direct-drive busbar, comprising:

the arc rolling device 100 of the direct drive row is used for arc rolling processing during primary processing of the direct drive row;

the drilling device 200 of the direct-drive gang drill is provided with a bench drill 1 and a drilling positioning assembly 2, wherein the drilling positioning assembly 2 is used for drilling and positioning a direct-drive gang drilling workpiece 16, and the bench drill 1 is used for drilling the direct-drive gang drilling workpiece 16;

the sizing device 300 of the direct-drive row is provided with a cutting machine 21, a sawing positioning assembly 22 and a sawing guide rail assembly 24, the sawing guide rail assembly 24 is used for positioning the sized workpiece 37 after drilling processing, and the cutting machine 21 can move along the sawing guide rail assembly 24 so as to complete the sawing of the sized workpiece 37;

the direct drive welding apparatus 400 is provided with a high frequency heating tube 59 for heating the soldering lug.

Drilling equipment 200 of directly driving row includes bench drill 1, drilling location assembly 2, the tight assembly 3 of drilling clamp, moving platform 4 and drilling frock frame 5, two 1 symmetry of bench drill is placed drilling frock frame 5's upper end, moving platform 4 sets up two between the bench drill 1, simultaneously moving platform 4's lower extreme with drilling frock frame 5's up end contact, install on its upper end drilling location assembly 2 with the tight assembly 3 of drilling clamp, moving platform 4's both ends set up respectively between the drill bit of bench drill 1 and the installation base, drilling location assembly 2 symmetry is installed moving platform 4's both ends, the tight assembly 3 symmetry of drilling clamp is installed moving platform 4's horizontal central line both sides.

The drilling positioning assembly 2 comprises a supporting plate 6, a drilling template 7 and a horizontal supporting plate 8, wherein the side wall of the horizontal supporting plate 8 is connected with the side wall of the supporting plate 6, the drilling template 7 is arranged above the horizontal supporting plate 8 and keeps a certain distance with the horizontal supporting plate in the vertical direction, then the drilling template 7 is installed at the upper end of the supporting plate 6 through bolts, and the adjustment of the vertical distance between the drilling template 7 and the horizontal supporting plate 8 can be realized by adjusting the bolts for connecting the drilling template 7 and the supporting plate 6.

The drilling template 7 and the horizontal supporting plate 8 are provided with circular through holes on mutually parallel planes, meanwhile, the through holes in the drilling template 7 are coaxial with the through holes in the horizontal supporting plate 8, and the diameters of the through holes corresponding to each other from top to bottom are consistent.

The drilling clamping assembly 3 comprises a drilling clamping cylinder 9, a cylinder support 10 and a positioning block 11, the cylinder support 10 is installed at the upper end of the moving platform 4, the positioning block 11 is installed at the right side of the upper end of the cylinder support 10, the drilling clamping cylinder 9 is installed at the left side of the upper end of the cylinder support 10, and the extending end of the drilling clamping cylinder and the positioning block 11 are oppositely arranged.

The extending end of the drilling clamping cylinder 9 is provided with a rubber pad 12, so that a drilling workpiece 16 to be processed can be effectively protected from being damaged by a clamping force.

The drilling clamping cylinder 9 is a double-extension-rod cylinder, so that the stress of the drilling workpiece 16 to be machined is more balanced.

Moving platform 4 includes table surface 13, movable support 14 and universal ball 15, movable support 14 sets up table surface 13's below, and both connect through adjusting screw, and adjusting screw realizes through threaded connection table surface 13 with remove the perpendicular distance between the support 14, the both ends of table surface 13 lower extreme and it all installs a plurality ofly to remove the both ends of support 14 lower extreme universal ball 15 effectively guarantees moving platform 4 can remove in all directions.

Cut to length device 300 of directly driving row includes cutting machine 21, saw cuts location assembly 22, saw cuts and presss from both sides tight assembly 23, saw cuts guide rail assembly 24 and cut to length frock frame 25, cutting machine 21 installs saw cut on the guide rail assembly 24, saw cut location assembly 22, saw cut press from both sides tight assembly 23 and saw cut guide rail assembly 24 and all install on the last plane of cut to length frock frame 25, simultaneously saw cut and press from both sides tight assembly 23 and set up and be in the intermediate position department of cut to length frock frame 25, and its long limit with planar long limit is perpendicular, two on the cut length frock frame 25 saw cut location assembly 22 and two saw cut guide rail assembly 24 symmetry respectively and set up and be in saw cut the both sides of pressing from both sides tight assembly 23, just saw cut guide rail assembly 24 and set up saw cut the outside of location assembly 22.

Saw cut location assembly 22 including location hyoplastron 26, locating support 27 and reference column 28, location hyoplastron 26 is installed the upper end of locating support 27, and its left end with the left end of locating support 27 aligns, and is a plurality of reference column 28 demountable installation is in the upper end of location hyoplastron 26 right-hand member, reference column 28 with location hyoplastron 26 is for dismantling the connection, according to the scale work piece 37 of different models, selects will reference column 28 installs in different positions department for the scale device can be suitable for the processing of the row's of directly driving work piece of multiple model, has effectively improved the practicality.

The non-connecting part of the positioning column 28 and the positioning tongue plate 26 is a truncated cone structure, and the inner diameter of the cross section of the positioning column is gradually increased from top to bottom, so that the positioning column 28 can be effectively suitable for different types of fixed-length workpieces 37.

Saw cut clamping assembly 23 including saw cutting die clamping cylinder 29, cylinder support frame 30 and locating plate 31, locating plate 31 is installed the right side of cylinder support frame 30 upper end, saw cutting die clamping cylinder 29 is installed the left side of cylinder support frame 30 upper end, and its stretch out the end with locating plate 31 sets up relatively.

The extending end of the sawing clamping cylinder 29 is provided with a rubber cushion 32, so that the fixed-length workpiece 37 to be processed can be effectively protected from being damaged by clamping force.

The sawing clamping cylinder 29 is a double-extension-rod cylinder, so that the stress on the fixed-length workpiece 37 to be processed is more balanced.

Saw cutting guide rail assembly 24 includes removal guide rail slider assembly 33, the big support of guide rail 34, removes little support 35 and slider connecting piece 36, it installs to remove guide rail slider assembly 33 on the lower plane on the big support of guide rail 34 top, it passes through to remove little support 35 the slider connecting piece 36 with remove guide rail slider assembly 33 and connect.

The movable guide rail and slide block assembly 33 comprises a straight guide rail and a movable slide block, and the movable slide block is connected to the straight guide rail in a sliding manner.

Welding set 400 of directly driving row includes both ends welding position assembly 41, removal guide rail assembly 42, welding clamp assembly 43, welds wing welding position assembly 44, welded platform 45 and welding frock frame 46, welded platform 45 sets up welding frock frame 46 top, and its lower plane passes through removal guide rail assembly 42 with welding frock frame 46 sliding connection makes through sliding connection welding platform 45 can follow according to actual need removal guide rail assembly 42 slides to this relative distance with the welding machine of realization, two both ends welding position assembly 41 symmetry is installed planar both ends on welded platform 45, welding clamp assembly 43 is installed planar intermediate position on welded platform 45, two welding wing welding position assembly 44 is installed welding platform 45's last plane, two simultaneously welding wing welding position assembly 44 symmetry sets up the both sides of welding clamp assembly 43.

Both ends welding position assembly 41 is including supporting riser 47, location layer board 48 and location layer board 49, location layer board 48 is installed perpendicularly it is a plurality of on the lateral wall of supporting riser 47 location layer board 49 demountable installation be in the upper end of location layer board 48, location layer board 49 with location layer board 48 is for dismantling the connection, according to the weldment 61 of treating of different models, the selection will location layer board 49 is installed in different positions department for welding set can be suitable for the welding process of the row's of directly driving work piece of multiple model, has effectively improved the practicality.

The upper end of the positioning support column 49 is of a cone frustum structure, and the inner diameter of the cross section of the positioning support column is gradually increased from top to bottom, so that the positioning support column 49 can be effectively suitable for welding workpieces 61 of different models.

The welding clamping assembly 43 comprises a welding clamping cylinder 50, a cushion pad 51, a limiting block 52 and a cylinder frame 53, wherein the limiting block 52 is installed on the right side of the upper end of the cylinder frame 53, the welding clamping cylinder 50 is installed on the left side of the upper end of the cylinder frame 53, the extending end of the welding clamping cylinder is opposite to the limiting block 52, the cushion pad 51 is arranged on the extending end of the welding clamping cylinder 50, and therefore the welding workpiece 61 to be machined can be effectively protected from being damaged by clamping force.

The welding clamping cylinder 50 is a double-extension-rod cylinder, so that the stress of the welding workpiece 61 to be machined is more balanced.

Weld wing welding position assembly 44 including adjusting cylinder 54, thermal-insulated ceramic tube chuck 55, cylinder support assembly 56, thermal-insulated cushion 57, tray 58 and high-frequency heating pipe 59, adjusting cylinder 54 installs cylinder support assembly 56's upper end, simultaneously adjusting cylinder 54's the end that stretches out sets up downwards, and it passes cylinder support assembly 56 with thermal-insulated ceramic tube chuck 55 is connected, high-frequency heating pipe 59 cover is in thermal-insulated ceramic tube chuck 55's lower extreme, when effectively having avoided welding work piece 61 and welding wing 60 welding, directly drive row inside and appear welding defect, tray 58 installs on cylinder support assembly 56, and its setting is in thermal-insulated ceramic tube chuck 55's below, thermal-insulated cushion 57 is installed tray 58's upper end.

The tray 58 is a stainless steel tray.

In the actual working process, the blanks are subjected to arc rolling processing on arc rolling devices in direct drive rows to meet the size requirement of drilling, workpieces after arc rolling are called drilling workpieces, firstly, the workpieces 16 to be drilled are placed on a drilling clamping assembly 3, the drilling workpieces 16 are positioned between a rubber pad 12 and a positioning block 11, then the positions of the drilling workpieces 16 are adjusted, two ends of the drilling workpieces 16 are respectively placed on drilling positioning assemblies 2 at two ends of the drilling device, bolts used for fixing a drilling template 7 on the drilling positioning assemblies 2 are screwed, the positions of the workpieces 16 to be drilled are ensured to be fixed, so that the drilling workpieces 16 cannot generate displacement deviation in the processing engineering, after the bolts are fixed, a drilling clamping cylinder 9 is started to clamp and fix the parts of the drilling workpieces 16 positioned on the drilling clamping assembly 3, and at the moment, the fixing work of the whole drilling workpieces 16 is completed, then starting the bench drill 1 to enable the drill bit to align with the reserved drill hole on the drill plate 7, then drilling the drill hole workpiece 16, after the machining is finished, loosening the drill hole clamping cylinder 9 and the screw for fixing the drill plate 7, then taking out the drill hole workpiece 16, wherein the workpiece to be drilled is called a sizing workpiece 37, after the drilling machining is finished, placing the sizing workpiece 37 to be machined on the sizing clamping assembly, meanwhile, enabling the drill holes at the two ends of the sizing workpiece to be sleeved on the positioning columns 28, then starting the sawing clamping cylinder 29 to fix the sizing workpiece 37, starting the cutting machine 21, moving the hand cutting machine 21 along the direction of the straight guide rail to finish the sawing machining of the sizing workpiece 37, after the machining is finished, loosening the sawing clamping cylinder 29 and then taking out the sizing workpiece 37, wherein the workpiece to be sawn-cut to be welded is called a workpiece 61, after the sawing sizing, placing the workpiece 61 to be machined on the welding clamping assembly 43, the welding workpiece 61 is positioned between the cushion pad 51 and the limiting block 52, the drill holes at two ends of the welding workpiece are sleeved on the positioning support 49, then the welding clamping cylinder 50 is started to fix the welding workpiece 61, the welding fin 60 is placed, the adjusting cylinder 54 is started to enable the high-frequency heating pipe 59 to be away from the welding workpiece 61 to a proper position, then the welding fin 60 starts to be welded, and after the machining is finished, the welding clamping cylinder 50 is loosened, and then the welding workpiece 61 is taken out.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The manufacturing installation of directly driving row, its characterized in that includes:

the arc rolling device (100) of the direct drive row is used for arc rolling processing during primary processing of the direct drive row;

the drilling device (200) of the direct-drive gang drill is provided with a bench drill (1) and a drilling positioning assembly (2), wherein the drilling positioning assembly (2) is used for drilling and positioning a workpiece (16) of the direct-drive gang drill, and the bench drill (1) is used for drilling the workpiece (16) of the direct-drive gang drill;

the sizing device (300) of the direct-drive row is provided with a cutting machine (21), a sawing positioning assembly (22) and a sawing guide rail assembly (24), the sawing guide rail assembly (24) is used for positioning a sized workpiece (37) after drilling processing, and the cutting machine (21) can move along the sawing guide rail assembly (24) so as to complete sawing of the sized workpiece (37);

the direct-drive welding device (400) is provided with a high-frequency heating pipe (59) for heating the soldering lug.

2. The manufacturing apparatus of a direct drive row as set forth in claim 1, wherein: the drilling device (200) of the direct-drive row comprises bench drills (1), a drilling positioning assembly (2), a drilling clamping assembly (3), a moving platform (4) and a drilling tool frame (5), wherein the two bench drills (1) are symmetrically arranged at the upper end of the drilling tool frame (5), the moving platform (4) is arranged between the two bench drills (1), meanwhile, the lower end of the moving platform (4) is contacted with the upper end surface of the drilling tool framework (5), the upper end of the drilling clamp is provided with the drilling positioning assembly (2) and the drilling clamping assembly (3), two ends of the movable platform (4) are respectively arranged between the drill bit and the mounting base of the bench drill (1), the drilling positioning assemblies (2) are symmetrically arranged at two ends of the moving platform (4), the drilling clamping assemblies (3) are symmetrically arranged on two sides of the horizontal center line of the moving platform (4).

3. The manufacturing apparatus of a direct drive row as set forth in claim 2, wherein: the drilling positioning assembly (2) comprises a supporting plate (6), a drilling template (7) and a horizontal supporting plate (8), wherein the side wall of the horizontal supporting plate (8) is connected with the side wall of the supporting plate (6), the drilling template (7) is arranged above the horizontal supporting plate (8) and keeps a certain distance with the horizontal supporting plate in the vertical direction, then the drilling template (7) is installed at the upper end of the supporting plate (6) through bolts, and the adjustment of the vertical distance between the drilling template (7) and the horizontal supporting plate (8) can be realized by adjusting the bolts for connecting the drilling template (7) and the supporting plate (6);

drilling presss from both sides tight assembly (3) including drilling die clamping cylinder (9), cylinder support (10) and locating piece (11), cylinder support (10) are installed the upper end of moving platform (4), locating piece (11) are installed the right side of cylinder support (10) upper end, drilling die clamping cylinder (9) are installed the left side of cylinder support (10) upper end, and its stretch out the end with locating piece (11) set up relatively.

4. The manufacturing apparatus of a direct drive row as set forth in claim 2, wherein: moving platform (4) include table surface (13), remove support (14) and universal ball (15), it sets up to remove support (14) table surface (13)'s below, and both connect through adjusting screw, and adjusting screw realizes through threaded connection table surface (13) with remove the perpendicular distance between support (14), table surface (13) lower extreme both ends and it all installs a plurality ofly to remove the both ends of support (14) lower extreme universal ball (15).

5. The manufacturing apparatus of a direct drive row as set forth in claim 1, wherein: the sizing device (300) of the direct-drive row comprises a cutting machine (21), a sawing positioning assembly (22), a sawing clamping assembly (23), a sawing guide rail assembly (24) and a sizing tool frame (25), the cutting machine (21) is arranged on the sawing guide rail assembly (24), the sawing positioning assembly (22), the sawing clamping assembly (23) and the sawing guide rail assembly (24) are arranged on the upper plane of the sizing tool frame (25), meanwhile, the sawing clamping assembly (23) is arranged at the middle position of the sizing tool frame (25), the long side of the saw cutting positioning assembly is perpendicular to the long side of the upper plane of the sizing tool frame (25), the two saw cutting positioning assemblies (22) and the two saw cutting guide rail assemblies (24) are respectively and symmetrically arranged at the two sides of the saw cutting clamping assembly (23), and the sawing guide rail assembly (24) is arranged outside the sawing positioning assembly (22).

6. The manufacturing apparatus of the direct drive bank as claimed in claim 5, wherein: the sawing positioning assembly (22) comprises a positioning tongue plate (26), a positioning support (27) and positioning columns (28), wherein the positioning tongue plate (26) is installed at the upper end of the positioning support (27), the left end of the positioning tongue plate is aligned with the left end of the positioning support (27), and the positioning columns (28) are detachably installed at the upper end of the right end of the positioning tongue plate (26).

7. The manufacturing apparatus of a direct drive row as set forth in claim 1, wherein: the welding device (400) of the direct drive row comprises a two-end welding positioning assembly (41), a movable guide rail assembly (42), a welding clamping assembly (43), a welding fin welding positioning assembly (44), a welding platform (45) and a welding tool frame (46), the welding platform (45) is arranged above the welding tool frame (46), the lower plane of the welding tool frame is connected with the welding tool frame (46) in a sliding way through the movable guide rail assembly (42), the two end welding positioning assemblies (41) are symmetrically arranged at the two ends of the upper plane of the welding platform (45), the welding clamping assembly (43) is arranged in the middle of the upper plane of the welding platform (45), the two welding fin welding positioning assemblies (44) are arranged on the upper plane of the welding platform (45), meanwhile, the two welding fin welding positioning assemblies (44) are symmetrically arranged on two sides of the welding clamping assembly (43).

8. The manufacturing apparatus of the direct drive bank as claimed in claim 7, wherein: both ends welding position assembly (41) are including supporting riser (47), location layer board (48) and location pillar (49), location layer board (48) are installed perpendicularly support on the lateral wall of riser (47), and is a plurality of location pillar (49) demountable installation be in the upper end of location layer board (48).

9. The manufacturing apparatus of the direct drive bank as claimed in claim 7, wherein: welding wing welding position assembly (44) is including adjusting cylinder (54), thermal-insulated ceramic tube chuck (55), cylinder support assembly (56), thermal-insulated cushion (57), tray (58) and high-frequency heating pipe (59), adjusting cylinder (54) is installed the upper end of cylinder support assembly (56), simultaneously adjusting cylinder (54) stretch out the end and set up downwards, and it passes cylinder support assembly (56) with thermal-insulated ceramic tube chuck (55) are connected, high-frequency heating pipe (59) cover is in the lower extreme of thermal-insulated ceramic tube chuck (55), tray (58) are installed on cylinder support assembly (56), and its setting is in the below of thermal-insulated ceramic tube chuck (55), install thermal-insulated cushion (57) the upper end of tray (58).

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