CN212634967U - Turbine assembly machining device - Google Patents
Turbine assembly machining device Download PDFInfo
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- CN212634967U CN212634967U CN202021473140.8U CN202021473140U CN212634967U CN 212634967 U CN212634967 U CN 212634967U CN 202021473140 U CN202021473140 U CN 202021473140U CN 212634967 U CN212634967 U CN 212634967U
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- 238000003754 machining Methods 0.000 title claims description 25
- 238000003466 welding Methods 0.000 claims abstract description 16
- 238000003801 milling Methods 0.000 claims description 72
- 238000001125 extrusion Methods 0.000 claims description 24
- 238000000227 grinding Methods 0.000 claims description 20
- 230000007306 turnover Effects 0.000 claims description 20
- 239000002184 metal Substances 0.000 claims description 16
- 229910052751 metal Inorganic materials 0.000 claims description 16
- 230000005540 biological transmission Effects 0.000 claims description 11
- 238000003825 pressing Methods 0.000 claims description 10
- 238000007514 turning Methods 0.000 claims description 7
- 238000000034 method Methods 0.000 abstract description 15
- 238000005498 polishing Methods 0.000 description 37
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 10
- 229910052742 iron Inorganic materials 0.000 description 5
- 238000006073 displacement reaction Methods 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 238000004140 cleaning Methods 0.000 description 1
- 238000005260 corrosion Methods 0.000 description 1
- 230000007797 corrosion Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
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Abstract
The utility model discloses a turbine subassembly machine tooling device, including the workstation, the welding of top outer wall one side of workstation has the roll-over table, and the top outer wall both sides of roll-over table all have welded the backup pad, rotates through the bearing on the outer wall of the adjacent one side of backup pad and is connected with the pivot, and the welding of the adjacent one end of pivot has the returning face plate, and the other end welding that the returning face plate was kept away from in the pivot has the outside rotor plate that is located the backup pad, and two recesses have all been seted up to the inside of two backup pads, and the inside sliding connection of. The utility model discloses can treat under the condition that need not dismantle and process the gear assembly and overturn, insert the post simultaneously and peg graft inside the slot, can fix the upset board again, make the device operation more convenient, can fix the turbine part of treating that two splint are inside to be placed, avoid the skew of treating in the course of working and process the turbine part, improve the device's stability and yield.
Description
Technical Field
The utility model relates to a turbine subassembly processing technology field especially relates to a turbine subassembly machine tooling device.
Background
The turbine has corrosion resistance, impact resistance and widely applied materials, and in the process of a turbine processing production line, steps such as grinding or grooving of turbine components are needed.
Present turbine subassembly machining device does not have the function of treating processing turbine part upset processing, consequently just can the back after one of them face is processed, need dismantle again and process another one side after the installation again, takes trouble hard, has reduced work efficiency, can not treat simultaneously that processing turbine part fixes, leads to treating processing turbine part offset processing inaccurate, consequently, needs to design a turbine subassembly machining device to solve above-mentioned problem urgently.
Disclosure of Invention
The utility model aims at solving the function that does not have among the prior art and treats processing turbine part upset processing, consequently after wherein one side has been processed could, need dismantle again after the installation again to processing other one side, take trouble hard, reduced work efficiency, can not treat simultaneously that processing turbine part fixes, lead to treating the unsafe shortcoming of processing turbine part offset, and a turbine assembly machining device who proposes.
In order to achieve the above purpose, the utility model adopts the following technical scheme: a machining device for a turbine component comprises a workbench, wherein a turnover table is welded on one side of the outer wall of the top of the workbench, supporting plates are welded on two sides of the outer wall of the top of the turnover table, a rotating shaft is rotatably connected to the outer wall of one side adjacent to the supporting plates through a bearing, a turnover plate is welded on one end adjacent to the rotating shaft, a rotating plate located outside the supporting plates is welded on the other end, away from the turnover plate, of the rotating shaft, two grooves are formed in the two supporting plates, a movable plate is slidably connected to the insides of the grooves, connecting rods extending to the outside of the supporting plates are welded on the outer wall of one side of the movable plate, the connecting rods penetrate through the rotating plates, pull plates are welded on the outer walls, located at one ends of the outer ends of the rotating plates, of the two connecting rods are, the outer wall of one side of the turnover plate, which is close to the inserting column, is provided with a slot, and the inserting column is inserted in the slot.
The key concept of the technical scheme is as follows: can treat under the condition that need not dismantle and process the gear assembly upset, insert the post simultaneously and peg graft inside the slot, can fix the upset board again, make the device operation more convenient, use more nimble.
Further, equal threaded connection has fixing bolt on the outer wall of returning face plate both sides, and fixing bolt, fixing bolt is located the inside one end of returning face plate and all rotates and is connected with the bearing frame, and the other end welding that fixing bolt was kept away from to the bearing frame has splint.
Further, install drive motor through the bolt on the inner wall at workstation top, and there is the fixing base through the bolt fastening on the workstation is close to drive motor's the top outer wall, drive motor's output welding has the support column, and the support column is through bearing and fixing base and rotate and be connected.
Furthermore, the welding of the top of support column has the support diaphragm, and supports top outer wall one side of diaphragm and install through the bolt and mill the pneumatic cylinder, swing joint has the hydraulic stem of milling on the outer wall of milling the pneumatic cylinder bottom, the bottom of milling the hydraulic stem is fixed with through the bolt and mills the motor, and the output welding of milling the motor has the milling cutter.
Further, an air cylinder is fixed on the outer wall of the bottom, close to the milling hydraulic rod, of the supporting transverse plate through bolts, an air pump is fixed on the outer wall of one side of the air cylinder through bolts, a metal hose is welded on the outer wall of the other side, far away from the air cylinder, of the air pump, and the other end, far away from the air pump, of the metal hose is fixed on the outer wall of one side of the milling cutter through bolts.
Furthermore, a polishing hydraulic cylinder is fixed on the outer wall of the top, away from the other side of the milling hydraulic cylinder, of the supporting transverse plate through bolts, a polishing hydraulic rod is movably connected to the outer wall of the bottom of the polishing hydraulic cylinder, a polishing motor is fixed at the bottom end of the polishing hydraulic rod through bolts, and a polishing block is welded at the output end of the polishing motor.
Furthermore, the welding of the center department of the positive outer wall of support diaphragm has the support vertical plate, it has the extrusion pneumatic cylinder to support the vertical plate and keep away from through the bolt fastening on the top outer wall of support diaphragm opposite side, swing joint has the extrusion hydraulic stem on the outer wall of extrusion hydraulic cylinder bottom, and the bottom welding of extrusion hydraulic stem has the briquetting.
The utility model has the advantages that:
1. through the returning face plate, rotor plate, connecting rod, the post of inserting and the slot that set up, can treat under the condition that need not dismantle and process the gear assembly and overturn, insert the post simultaneously and peg graft inside the slot, can fix the returning face plate again, make the device operation more convenient, use more in a flexible way.
2. Through the fixing bolt, the bearing seat and the clamping plates which are arranged, the turbine parts to be processed, which are placed inside the two clamping plates, can be fixed, the position deviation of the turbine parts to be processed in the processing process is avoided, the processing is not accurate, and the stability and the yield of the device are improved.
3. Through air pump, cylinder and the metal collapsible tube that sets up, can mill the during operation waiting to process turbine part, clear up the metal piece that mills, avoid metal piece to pile up on the surface of waiting to process turbine part, cause the influence to processing on next step of spare part.
4. Through the milling cutter, the grinding block and the pressing block which are arranged, the turbine part to be processed can be respectively extruded with the annular gear ring, milled with the milling groove and ground inside the milling groove, after the turbine part to be processed is fixed for one time, the annular gear ring is milled, ground and processed, and the practicability of the device is improved.
Drawings
Fig. 1 is a schematic perspective view of a machining device for a turbine component according to the present invention;
fig. 2 is a schematic structural view of milling and scrap iron cleaning of the machining device for turbine components provided by the present invention;
fig. 3 is a schematic diagram of an overturning structure of a turbine component machining device according to the present invention;
fig. 4 is a schematic view of a fixing structure of a machining device for a turbine component according to the present invention;
fig. 5 is a schematic view of a transmission structure of a transmission motor of a machining device for a turbine component according to the present invention;
fig. 6 is a schematic structural view of a grinding block and a pressing block of the machining device for turbine components according to the present invention.
In the figure: 1 workbench, 2 overturning tables, 3 supporting plates, 4 overturning plates, 5 grooves, 6 movable plates, 7 springs, 8 connecting rods, 9 inserting columns, 10 slots, 11 pulling plates, 12 rotating plates, 13 fixing bolts, 14 bearing seats, 15 clamping plates, 16 transmission motors, 17 supporting columns, 18 fixing seats, 19 supporting transverse plates, 20 milling hydraulic cylinders, 21 milling hydraulic rods, 22 milling motors, 23 milling cutters, 24 air cylinders, 25 air pumps, 26 metal hoses, 27 polishing hydraulic cylinders, 28 polishing hydraulic rods, 29 polishing motors, 30 polishing blocks, 31 supporting longitudinal plates, 32 extrusion hydraulic cylinders, 33 extrusion hydraulic rods, 34 pressing blocks and 35 rotating shafts.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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.
Referring to fig. 1 to 6, a machining device for a turbine component comprises a workbench 1, a turning table 2 is welded on one side of the outer wall of the top of the workbench 1, supporting plates 3 are welded on two sides of the outer wall of the top of the turning table 2, a rotating shaft 35 is rotatably connected on the outer wall of one side adjacent to the supporting plates 3 through bearings, a turning plate 4 is welded on one end adjacent to the rotating shaft 35, a rotating plate 12 positioned outside the supporting plate 3 is welded on the other end of the rotating shaft 35 away from the turning plate 4, two grooves 5 are formed in the two supporting plates 3, a movable plate 6 is slidably connected inside the grooves 5, a connecting rod 8 extending to the outside of the supporting plate 3 is welded on the outer wall of one side of the movable plate 6, the connecting rod 8 penetrates through the rotating plate 12, a pull plate 11 is welded on the outer wall of one end of the two connecting rods 8 positioned outside the rotating plate 12, the welding has the post 9 of inserting on the outer wall that connecting rod 8 opposite side was kept away from to fly leaf 6, and slot 10 has been seted up on the upset board 4 is close to one side outer wall of inserting post 9, and inserts post 9 and peg graft in the inside of slot 10, can treat under the condition that need not dismantle and process the gear assembly and carry out upset processing, inserts post 9 simultaneously and pegs graft inside slot 10, can fix upset board 4 again, makes the device operation more convenient, uses more in a flexible way.
As can be seen from the above description, the present invention has the following advantages: can be under the condition that need not dismantle, treat the processing gear subassembly and overturn and process, insert the post 9 simultaneously and peg graft inside slot 10, can fix turnover plate 4 again, make the device operation more convenient, use more in a flexible way.
Further, equal threaded connection has fixing bolt 13 on the outer wall of returning face plate 4 both sides, and fixing bolt 13 is located the inside one end of returning face plate 4 and all rotates and is connected with bearing frame 14, and the other end welding that fixing bolt 13 was kept away from to bearing frame 14 has splint 15, can treat to process the turbine part and carry out the centre gripping fixed, prevents that the turbine part displacement of treating the processing during operation from leading to processing inaccurate, has improved the device's stability.
Further, install drive motor 16 through the bolt on the inner wall at 1 top of workstation, and workstation 1 is close to and has fixed seat 18 through the bolt fastening on the top outer wall of drive motor 16, and the output welding of drive motor 16 has support column 17, and support column 17 is through bearing and fixing seat 18 and be the rotation connection, can make support column 17 rotate to carry out different processing steps.
Furthermore, a supporting transverse plate 19 is welded at the top end of the supporting column 17, a milling hydraulic cylinder 20 is installed on one side of the outer wall of the top of the supporting transverse plate 19 through a bolt, a milling hydraulic rod 21 is movably connected to the outer wall of the bottom of the milling hydraulic cylinder 20, a milling motor 22 is fixed at the bottom end of the milling hydraulic rod 21 through a bolt, a milling cutter 23 is welded at the output end of the milling motor 22, the milling hydraulic rod 21 is pressed by the milling hydraulic cylinder 20, and therefore the milling motor 22 and the milling cutter 23 are driven to mill turbine parts to be machined.
Further, the supporting transverse plate 19 is close to and mills and is fixed with the cylinder 24 through the bolt on the bottom outer wall of hydraulic stem 21, and is fixed with the air pump 25 through the bolt on the outer wall of cylinder 24 one side, the welding has metal collapsible tube 26 on the opposite side outer wall that air pump 25 kept away from cylinder 24, and the other end that metal collapsible tube 26 kept away from air pump 25 passes through the bolt fastening on the outer wall of milling cutter 23 one side, can clear up its iron fillings when milling, prevent that iron fillings from attaching on the part surface, produce the influence to its processing.
Further, a polishing hydraulic cylinder 27 is fixed on the outer wall of the top of the supporting transverse plate 19 far away from the other side of the milling hydraulic cylinder 20 through bolts, a polishing hydraulic rod 28 is movably connected to the outer wall of the bottom of the polishing hydraulic cylinder 27, a polishing motor 29 is fixed at the bottom end of the polishing hydraulic rod 28 through bolts, a polishing block 30 is welded at the output end of the polishing motor 29, the polishing hydraulic cylinder 27 applies pressure to the polishing hydraulic rod 28 to drive the polishing motor 29 and the polishing block 30 to ascend and descend, and the polishing motor 29 drives the polishing block 30 to rotate to polish the milling groove.
Furthermore, the center of the outer wall of the front side of the supporting transverse plate 19 is welded with a supporting longitudinal plate 31, the supporting longitudinal plate 31 is fixed on the outer wall of the top of the other side of the supporting transverse plate 19 through bolts, an extrusion hydraulic cylinder 32 is movably connected to the outer wall of the bottom of the extrusion hydraulic cylinder 32, a pressing block 34 is welded at the bottom end of the extrusion hydraulic cylinder 33, the extrusion hydraulic cylinder 32 applies pressure to the extrusion hydraulic rod 33, and therefore the pressing block 34 is driven to extrude the turbine component to be processed into an annular gear ring shape.
By adopting the fixing bolt 13, the bearing seat 14 and the clamping plates 15, the turbine parts to be processed placed in the two clamping plates 15 can be fixed, the position deviation of the turbine parts to be processed in the processing process is avoided, the processing is not accurate, and the stability and the yield of the device are improved; the air pump 25, the air cylinder 24 and the metal hose 26 can clean the milled metal debris when the turbine part to be machined is milled, so that the metal debris is prevented from being accumulated on the surface of the turbine part to be machined and influencing the next machining of the part; milling cutter 23, sanding block 30 and briquetting 34 can treat the processing turbine part and extrude annular ring gear respectively, mill the milling flutes and polish to milling flutes inside, have realized treating the once fixed back of processing turbine part, mill, polish and process annular ring gear to it, have improved device's practicality.
In the following, some preferred embodiments or application examples are listed to help those skilled in the art to better understand the technical content of the present invention and the technical contribution of the present invention to the prior art:
example 1
A machining device for a turbine component comprises a workbench 1, wherein a turnover table 2 is welded on one side of the outer wall of the top of the workbench 1, supporting plates 3 are welded on two sides of the outer wall of the top of the turnover table 2, a rotating shaft 35 is rotatably connected on the outer wall of one side adjacent to the supporting plates 3 through a bearing, a turnover plate 4 is welded on one end adjacent to the rotating shaft 35, a rotating plate 12 positioned outside the supporting plates 3 is welded on the other end, away from the turnover plate 4, of the rotating shaft 35, two grooves 5 are formed in the two supporting plates 3, a movable plate 6 is slidably connected inside the grooves 5, a connecting rod 8 extending to the outside of the supporting plates 3 is welded on the outer wall of one side of the movable plate 6, the connecting rod 8 penetrates through the rotating plate 12, a pull plate 11 is welded on the outer wall of one end, positioned outside the rotating plate 12, the welding has the post 9 of inserting on the outer wall that connecting rod 8 opposite side was kept away from to fly leaf 6, and slot 10 has been seted up on the upset board 4 is close to one side outer wall of inserting post 9, and inserts post 9 and peg graft in the inside of slot 10, can treat under the condition that need not dismantle and process the gear assembly and carry out upset processing, inserts post 9 simultaneously and pegs graft inside slot 10, can fix upset board 4 again, makes the device operation more convenient, uses more in a flexible way.
The outer walls of the two sides of the turnover plate 4 are in threaded connection with fixing bolts 13, the fixing bolts 13 are fixed, one ends, located inside the turnover plate 4, of the fixing bolts 13 are rotatably connected with bearing seats 14, and clamping plates 15 are welded to the other ends, far away from the fixing bolts 13, of the bearing seats 14, so that turbine parts to be machined can be clamped and fixed, machining inaccuracy caused by displacement of the turbine parts to be machined during machining is prevented, and the stability of the device is improved; the inner wall of the top of the workbench 1 is provided with a transmission motor 16 through a bolt, the outer wall of the top, close to the transmission motor 16, of the workbench 1 is fixedly provided with a fixed seat 18 through a bolt, the output end of the transmission motor 16 is welded with a support column 17, the support column 17 is rotatably connected with the fixed seat 18 through a bearing, and the support column 17 can rotate, so that different processing steps can be carried out; a supporting transverse plate 19 is welded at the top end of the supporting column 17, a milling hydraulic cylinder 20 is installed on one side of the outer wall of the top of the supporting transverse plate 19 through a bolt, a milling hydraulic rod 21 is movably connected to the outer wall of the bottom of the milling hydraulic cylinder 20, a milling motor 22 is fixed at the bottom end of the milling hydraulic rod 21 through a bolt, a milling cutter 23 is welded at the output end of the milling motor 22, and the milling hydraulic cylinder 20 applies pressure to the milling hydraulic rod 21 so as to drive the milling motor 22 and the milling cutter 23 to mill a turbine part to be processed; an air cylinder 24 is fixed on the outer wall of the bottom of the supporting transverse plate 19 close to the milling hydraulic rod 21 through a bolt, an air pump 25 is fixed on the outer wall of one side of the air cylinder 24 through a bolt, a metal hose 26 is welded on the outer wall of the other side of the air pump 25 far away from the air cylinder 24, and the other end of the metal hose 26 far away from the air pump 25 is fixed on the outer wall of one side of the milling cutter 23 through a bolt, so that scrap iron of the metal hose can be cleaned during milling, and the scrap iron is prevented from being attached to the surface of a part; a polishing hydraulic cylinder 27 is fixed on the outer wall of the top of the supporting transverse plate 19, which is far away from the other side of the milling hydraulic cylinder 20, through a bolt, a polishing hydraulic rod 28 is movably connected on the outer wall of the bottom of the polishing hydraulic cylinder 27, a polishing motor 29 is fixed at the bottom end of the polishing hydraulic rod 28 through a bolt, a polishing block 30 is welded at the output end of the polishing motor 29, the polishing hydraulic cylinder 27 applies pressure to the polishing hydraulic rod 28 to drive the polishing motor 29 and the polishing block 30 to ascend and descend, and the polishing motor 29 drives the polishing block 30 to rotate to polish the milling groove; the center of the outer wall of the front side of the supporting transverse plate 19 is welded with a supporting longitudinal plate 31, the supporting longitudinal plate 31 is far away from the outer wall of the top of the other side of the supporting transverse plate 19 and is fixed with an extrusion hydraulic cylinder 32 through bolts, the outer wall of the bottom of the extrusion hydraulic cylinder 32 is movably connected with an extrusion hydraulic rod 33, a pressing block 34 is welded at the bottom end of the extrusion hydraulic rod 33, the extrusion hydraulic cylinder 32 applies pressure to the extrusion hydraulic rod 33, and therefore the pressing block 34 is driven to extrude the turbine component to be processed into an annular gear ring shape.
The working principle is as follows: when the turbine component machining device is used, a turbine part to be machined is placed between two clamping plates 15, the two fixing bolts 13 are simultaneously screwed, the two fixing bolts 13 drive the two clamping plates 15 to fixedly clamp the turbine part to be machined, the transmission motor 16 is started, the transmission motor 16 drives the supporting column 17 to rotate, when the pressing block 34 is positioned right above the turbine part to be machined, the extrusion hydraulic cylinder 32 is started, the extrusion hydraulic cylinder 32 applies pressure to the extrusion hydraulic rod 33, so that the pressing block 34 extrudes the part into a gear shape, when the milling cutter 23 is positioned right above the turbine part to be machined, the milling hydraulic cylinder 20 and the milling motor 22 are started, the milling hydraulic cylinder 20 applies pressure to the milling hydraulic rod 21, the milling hydraulic rod 21 drives the milling motor 22 to descend, and at the moment, the milling motor 22 drives the milling cutter 23 to rotate so as to perform groove milling on the turbine part to be machined, when the grinding block 30 is located directly over the turbine part to be processed, the grinding hydraulic cylinder 27 and the grinding motor 29 are started, the grinding motor 29 drives the grinding block 30 to rotate, the grinding hydraulic cylinder 27 applies pressure to the grinding hydraulic rod 28, the grinding motor 29 and the grinding block 30 are driven to grind the milling groove of the turbine part to be processed, after one surface is processed, the pull plate 11 is pulled towards the outside of the connecting rod 8, the inserting column 9 is made to leave the slot 10 and the turnover plate 4, the turnover plate 4 is rotated, the turnover plate 4 can be turned over, the pulling pull plate 11 is loosened, the inserting column 9 is made to be inserted into the slot 10, the turnover plate 4 is fixed, two surfaces of the turbine part to be processed can be processed after being fixed once, the flexibility of the device is improved, the device realizes milling groove, grinding and processing of an annular gear ring, time and labor are saved, and the practicability is stronger.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (7)
1. A turbine component machining device comprises a workbench (1) and is characterized in that a turnover table (2) is welded on one side of the outer wall of the top of the workbench (1), supporting plates (3) are welded on two sides of the outer wall of the top of the turnover table (2), a rotating shaft (35) is rotatably connected on the outer wall of one side adjacent to the supporting plates (3) through a bearing, a turnover plate (4) is welded on one end adjacent to the rotating shaft (35), a rotating plate (12) located outside the supporting plates (3) is welded on the other end, far away from the turnover plate (4), of the rotating shaft (35), two grooves (5) are formed in the two supporting plates (3), a movable plate (6) is slidably connected inside the grooves (5), a connecting rod (8) extending to the outside of the supporting plates (3) is welded on the outer wall of one side of the movable plate (6), and the connecting rod (8) penetrates, two connecting rod (8) are located the welding on the outer wall of the outside one end of rotor plate (12) and have arm-tie (11), and have cup jointed spring (7) on connecting rod (8) are located the outer wall of recess (5) inside, the welding has inserted post (9) on the outer wall that connecting rod (8) opposite side was kept away from in fly leaf (6), slot (10) have been seted up on upset board (4) are close to the one side outer wall of inserting post (9), and insert post (9) and peg graft in the inside of slot (10).
2. The machining device for the turbine component as claimed in claim 1, wherein the outer walls of the two sides of the turning plate (4) are both in threaded connection with fixing bolts (13), the fixing bolts (13) are fixed on the outer walls of the two sides of the turning plate (4), one ends of the fixing bolts (13) located inside the turning plate (4) are both in rotating connection with bearing seats (14), and clamping plates (15) are welded on the other ends, far away from the fixing bolts (13), of the bearing seats (14).
3. The machining device of the turbine assembly according to claim 1, wherein the transmission motor (16) is mounted on the inner wall of the top of the workbench (1) through a bolt, the fixed seat (18) is fixed on the outer wall of the top, close to the transmission motor (16), of the workbench (1) through a bolt, the support column (17) is welded to the output end of the transmission motor (16), and the support column (17) is rotatably connected with the fixed seat (18) through a bearing.
4. The turbine component machining device according to claim 3, wherein a supporting transverse plate (19) is welded at the top end of the supporting column (17), a milling hydraulic cylinder (20) is installed on one side of the outer wall of the top of the supporting transverse plate (19) through a bolt, a milling hydraulic rod (21) is movably connected to the outer wall of the bottom of the milling hydraulic cylinder (20), a milling motor (22) is fixed at the bottom end of the milling hydraulic rod (21) through a bolt, and a milling cutter (23) is welded at the output end of the milling motor (22).
5. The machining device of the turbine assembly as claimed in claim 4, wherein the air cylinder (24) is fixed on the outer wall of the bottom of the supporting transverse plate (19) close to the milling hydraulic rod (21) through a bolt, the air pump (25) is fixed on the outer wall of one side of the air cylinder (24) through a bolt, the metal hose (26) is welded on the outer wall of the other side of the air pump (25) far away from the air cylinder (24), and the other end of the metal hose (26) far away from the air pump (25) is fixed on the outer wall of one side of the milling cutter (23) through a bolt.
6. The machining device for the turbine component is characterized in that a grinding hydraulic cylinder (27) is fixed on the outer wall of the top of the supporting transverse plate (19) far away from the other side of the milling hydraulic cylinder (20) through bolts, a grinding hydraulic rod (28) is movably connected to the outer wall of the bottom of the grinding hydraulic cylinder (27), a grinding motor (29) is fixed at the bottom end of the grinding hydraulic rod (28) through bolts, and a grinding block (30) is welded at the output end of the grinding motor (29).
7. The machining device of the turbine assembly according to claim 4, characterized in that a supporting longitudinal plate (31) is welded at the center of the outer wall of the front face of the supporting transverse plate (19), an extrusion hydraulic cylinder (32) is fixed on the outer wall of the top of the supporting longitudinal plate (31) far away from the other side of the supporting transverse plate (19) through a bolt, an extrusion hydraulic rod (33) is movably connected to the outer wall of the bottom of the extrusion hydraulic cylinder (32), and a pressing block (34) is welded at the bottom end of the extrusion hydraulic rod (33).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202021473140.8U CN212634967U (en) | 2020-07-23 | 2020-07-23 | Turbine assembly machining device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202021473140.8U CN212634967U (en) | 2020-07-23 | 2020-07-23 | Turbine assembly machining device |
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| Publication Number | Publication Date |
|---|---|
| CN212634967U true CN212634967U (en) | 2021-03-02 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202021473140.8U Expired - Fee Related CN212634967U (en) | 2020-07-23 | 2020-07-23 | Turbine assembly machining device |
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| Country | Link |
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| CN (1) | CN212634967U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113458575A (en) * | 2021-07-22 | 2021-10-01 | 詹伟 | Vacuum electron beam welding turbine shaft |
-
2020
- 2020-07-23 CN CN202021473140.8U patent/CN212634967U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113458575A (en) * | 2021-07-22 | 2021-10-01 | 詹伟 | Vacuum electron beam welding turbine shaft |
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