CN215698080U - Integral type tower body structure, bearing frame mounting structure and numerical control sword tower - Google Patents

Abstract

The application relates to an integral type tower body structure, bearing frame mounting structure and numerical control sword tower, and it includes the tower body, and the tower body rotates and is connected with the blade disc. The tower body is internally provided with a mounting cavity, a mounting seat for mounting the bearing seat is arranged in the mounting cavity, and the mounting seat and the tower body are integrally formed; the mounting seat is provided with a first accommodating groove for accommodating the bearing seat, and the bottom of the first accommodating groove is also provided with a second accommodating groove for accommodating the driving wheel; the mounting seat is also provided with a third accommodating groove for accommodating the driven wheel, and the third accommodating groove penetrates through the side wall close to the second accommodating groove and is communicated with the second accommodating groove; and a mounting hole for mounting a transmission shaft of the driven wheel is formed at the bottom of the third accommodating groove. Set up mount pad and tower body setting as an organic whole, can some spare parts of direct mount on the mount pad, reduced the installation of support piece on the tower body, simplified the installation procedure, improved the installation problem of sword tower.

Description

Integral type tower body structure, bearing frame mounting structure and numerical control sword tower

Technical Field

The application relates to the field of turret technology, more specifically says that it relates to an integral type tower body structure, bearing frame mounting structure and numerical control turret.

Background

The turret is an important component used in a machine tool or other machining equipment for cutting a workpiece to be machined. In the prior art, cutter heads of a plurality of stations are distributed on the circumference of a cutter disc of a cutter tower, and the cutter disc on the cutter tower is driven by a motor to rotate, so that the stations are driven to rotate to replace the cutter heads, and the cutter heads on different stations can process workpieces conveniently.

Before the spare part on traditional sword tower is installed on the tower body, need install the support piece that supplies the spare part to fix on the tower body earlier, because the spare part that needs the installation on the sword tower is more, the support piece that supplies the spare part to fix of installation one by one on the tower body can make the holistic installation of sword tower become loaded down with trivial details, remains to improve.

SUMMERY OF THE UTILITY MODEL

In order to improve the installation problem of sword tower, this application provides an integral type tower body structure, bearing frame mounting structure and numerical control sword tower.

The application provides a pair of integral type tower body structure, bearing frame mounting structure and numerical control sword tower adopts following technical scheme:

an integrated tower body structure comprises a tower body, wherein a mounting cavity is formed in the tower body, a mounting seat for mounting a bearing seat is arranged in the mounting cavity, and the mounting seat and the tower body are integrally formed;

the mounting seat is provided with a first accommodating groove for accommodating the bearing seat, and the bottom of the first accommodating groove is also provided with a second accommodating groove for accommodating the driving wheel; the mounting seat is also provided with a third accommodating groove for accommodating the driven wheel, and the third accommodating groove penetrates through the side wall close to the second accommodating groove and is communicated with the second accommodating groove; and a mounting hole for mounting a transmission shaft of the driven wheel is formed in the bottom of the accommodating groove III.

Through above-mentioned technical scheme, set up mount pad and tower body and be integrated into one piece, can some parts of direct mount on the mount pad to reduce support piece's installation, simplified the installation step of spare part, improved the installation problem of sword tower.

And because the tower body and the mounting seat are integrally formed, the structural strength of the integrally-mounted turret is improved.

Optionally, a reinforcing rib is arranged between the mounting seat and the tower body.

Through above-mentioned technical scheme, strengthen the structural strength between mount pad and the tower body, improve the structural stability of tower body.

Optionally, a connecting block for installing a screw rod is arranged at the bottom of the tower body, and the connecting block and the tower body are integrally formed; the connecting block is provided with a screw rod hole for a screw rod to pass through, the axis of the screw rod hole is parallel to the bottom of the tower body, and the axis of the screw rod hole is perpendicular to the axis of the mounting hole.

Through above-mentioned technical scheme, the connecting block that tower body bottom was used for supplying the lead screw installation need not independent assembly again, has simplified the installation of sword tower, has improved the installation problem of sword tower.

Optionally, the tower body bottom is equipped with the oil outlet, the axis of oil outlet with the axis in lead screw hole is perpendicular and crossing.

Through above-mentioned technical scheme, can set up lubricating arrangement on the tower body, lead oil to the oil outlet, conveniently lubricate the lead screw on the lathe to improve the stability of sword tower during operation

Optionally, a first cooling hole is formed in the tower body, and the first cooling hole is used for injecting cooling liquid; and a second cooling hole is formed in the tower body and communicated with the first cooling hole, and the second cooling hole is used for providing cooling liquid for the cutter head.

Through above-mentioned technical scheme, actual sword tower can be directly connect the pipeline of pouring into the coolant liquid on cooling hole one under the use operating mode, for the blade disc provides the coolant liquid, need not to set up cooling device alone again, improves the convenience that the sword tower used.

Optionally, a wiring groove is formed in the tower body, a first wiring hole is further formed in the tower body, the first wiring hole is communicated with the first wiring groove, a second wiring hole is formed in the mounting hole, and the second wiring hole is communicated with the first wiring groove; the tower body is provided with a cover plate, and the cover plate is used for covering the wiring groove.

Through above-mentioned technical scheme, make things convenient for walking of cable on the tower body and take in, improve the convenience of cable installation.

Optionally, a first accommodating cavity and a second accommodating cavity are further arranged between the mounting seat and the tower body, and the first accommodating cavity and the second accommodating cavity are both arranged in the mounting cavity; the tower body bottom is provided with fixed orifices one and fixed orifices two, fixed orifices one is corresponding to and holds the setting of chamber one, fixed orifices two is corresponding to and holds the setting of chamber two.

Through above-mentioned technical scheme, the setting holds the chamber and holds chamber two, provides installation space and the fixed position of some spare parts be connected with the sword tower, improves the utilization ratio in space.

The application still provides a bearing frame mounting structure, bearing frame, driving motor and the aforesaid is arbitrary integral type tower body structure, its characterized in that: the bearing seat is fixed on the mounting seat, and a planetary gear mechanism is also arranged on the bearing seat and comprises an inner gear ring, a planet carrier, a sun gear and a plurality of planet pinions;

the inner gear ring is coaxially fixed on the bearing seat, the sun gear is coaxially arranged in the inner gear ring, and the planet pinion is meshed with the inner gear ring and the sun gear; the bearing seat is also coaxially provided with a bearing, and the planet carrier is arranged on an inner ring of the bearing; a fixed rod is coaxially fixed on each planet pinion, and one end of the fixed rod, which is far away from the planet pinion, is rotatably connected to the planet carrier; the planet carrier is rotationally connected with the sun gear, and the rotation axis of the planet carrier is superposed with the rotation axis of the sun gear;

a connecting shaft is fixed on one end of the planet carrier, which is far away from the sun gear, and a driving wheel is arranged on the connecting shaft;

the driving motor is fixed on the end face of the inner gear ring, which is far away from the planet carrier, and the output shaft of the driving motor is coaxially fixed with the sun gear.

Through above-mentioned technical scheme, installation planetary gear mechanism on the bearing frame, the planet shelf location action wheel provides the speed reduction for driving motor's power transmission, makes the operation of whole sword tower more stable, improves the stability of work.

The application also provides a numerical control sword tower, including the aforesaid arbitrary integral type tower body structure.

Through the technical scheme, the overall installation of the turret is more convenient, the overall installation problem of the turret is improved, and the overall structural strength of the turret is also improved.

In summary, the present application includes at least one of the following beneficial technical effects:

(1) by arranging the mounting seat and the tower body to be integrally formed, most parts can be directly mounted on the tower body, so that the mounting of the supporting piece is reduced, the mounting steps of the turret are simplified, and the mounting problem of the turret is improved;

(2) by arranging the wiring groove, the cable on the tower body can be conveniently routed and stored, and the convenience for installing the cable in the turret is improved;

(3) through setting up cooling hole one and cooling hole two, actual sword tower can be directly connect the pipeline of pouring into the coolant liquid on cooling hole one under the use operating mode, and need not to set up cooling device alone and supply the blade disc cooling, improves the convenience that the sword tower used.

Drawings

Fig. 1 is a schematic view of the overall structure of the tower body according to this embodiment.

Fig. 2 is an exploded view of the tower structure of the present embodiment.

Fig. 3 is a schematic structural view of the wiring groove of the present embodiment.

Fig. 4 is a schematic structural diagram of the bearing seat of the present embodiment.

Fig. 5 is an exploded view of the structure of the planetary gear mechanism of the present embodiment.

Fig. 6 is a sectional view of the numerical control turret structure of the present embodiment.

Fig. 7 is a schematic view of the overall structure of the numerical control turret according to the embodiment.

Fig. 8 is a schematic view of the whole structure of the tower body according to this embodiment, which is used for showing the structure of the mounting hole.

Fig. 9 is a schematic view of the cutter head and the driven wheel of the present embodiment.

Reference numerals: 1. a tower body; 2. a mounting cavity; 3. a mounting seat; 4. reinforcing ribs; 5. a first accommodating groove; 6. a seat hole; 7. a second accommodating groove; 8. accommodating a third tank; 9. mounting holes; 10. connecting blocks; 101. an oil outlet hole; 11. a screw hole; 12. a first accommodating cavity; 13. a second accommodating cavity; 14. a first fixing hole; 15. a second fixing hole; 16. a wiring slot; 17. a cover plate; 18. a first wiring hole; 19. a second wiring hole; 20. a first cooling hole; 21. a second cooling hole; 22. an oil inlet hole; 23. an oil outlet hole; 24. a bearing seat; 25. a planetary gear mechanism; 26. a drive motor; 27. an inner gear ring; 28. a planet carrier; 29. a sun gear; 30. a planet pinion gear; 301. fixing the rod; 31. mounting grooves; 32. a bearing; 33. a connecting shaft; 34. a driving wheel; 35. a driven wheel; 36. a drive shaft; 37. a cutter head; 38. a first limiting tooth part; 39. a second limiting tooth part; 40. sleeving a ring; 41. a first oil groove; 42. an oil groove II; 43. and an oil filling hole.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses integral type tower body structure.

Referring to fig. 1, including tower body 1, seted up installation cavity 2 in the tower body 1, be provided with mount pad 3 in the installation cavity 2, mount pad 3 and tower body 1 are integrated into one piece, are provided with strengthening rib 4 between mount pad 3 and the tower body 1 for additional strengthening of structural strength.

Holding tank 5 has been seted up on mount pad 3, and holding tank 5 is the cylinder groove, a plurality of seat holes 6 have been seted up to the tank bottom of holding tank 5, and a plurality of seat holes 6 distribute along the tank bottom circumference of holding tank 5.

Holding tank two 7 has still been seted up to the tank bottom of holding tank one 5, has still seted up holding tank three 8 on the mount pad 3, and holding tank three 8 runs through completely towards holding tank two 7 near the lateral wall of holding tank two 7, and holding tank three 8 communicates with holding tank two 7, and holding tank three 8 still communicates with holding tank one 5. The bottom of the accommodating groove III 8 is provided with an installing hole 9.

Referring to fig. 2, a connecting block 10 is fixed on the lower end surface of the tower body 1, the connecting block 10 and the tower body 1 are integrally formed, a screw hole 11 is formed in the connecting block 10, the axis of the screw hole 11 is parallel to the lower end surface of the tower body 1, and the axis of the screw hole 11 is also perpendicular to the axis of the mounting hole 9. The connecting block 10 is used for installing a screw rod on a machine tool, and the screw rod hole 11 is used for the screw rod on the machine tool to pass through.

The lower end face of the tower body 1 is further provided with an oil outlet 101, and the axis of the oil outlet 101 is perpendicular to the axis of the screw rod hole 11. During actual use, a lubricating device can be arranged in the second accommodating cavity 13, lubricating oil is guided out from the oil outlet hole 101 and flows to a screw rod on a machine tool to lubricate the screw rod.

Referring to fig. 1 and 2, a first accommodating cavity 12 and a second accommodating cavity 13 are arranged between the mounting seat 3 and the tower body 1, a plurality of first fixing holes 14 are formed in the lower end face of the tower body 1, the first fixing holes 14 are communicated with the first accommodating cavity 12, and the first fixing holes 14 are threaded holes; the lower end face of the tower body 1 is further provided with a plurality of second fixing holes 15, the second fixing holes 15 are communicated to the second accommodating cavity 13, and the second fixing holes 15 are threaded holes. The first accommodating cavity 12 and the second accommodating cavity 13 can be used for installing some parts required to be used in the operation process of the turret, and the parts can be fixed on the tower body 1 through the first fixing hole 14 and the second fixing hole 15.

Referring to fig. 2 and 3, a wiring groove 16 is formed in the upper end face of the tower body 1, a cover plate 17 is arranged on the wiring groove 16, the cover plate 17 is fixed to the tower body 1 through bolts, and the cover plate 17 is used for covering the wiring groove 16. A first wiring hole 18 is formed in the side wall of the tower body 1, and the first wiring hole 18 is communicated with a wiring groove 16; and a second wiring hole 19 is formed at the bottom of the wiring groove 16, and the second wiring hole 19 is communicated with the mounting hole 9.

During actual assembly, some cables can be connected into the wiring groove 16 through the first wiring hole 18 and the second wiring hole 19, and the cables are convenient to store and arrange.

Referring to fig. 2, a first cooling hole 20 is further formed in the side wall of the tower body 1, and the first cooling hole 20 is used for connecting a pipeline which is externally communicated with cooling liquid; and a second cooling hole 21 is further formed in the end face of the tower body 1 along the axial direction of the mounting hole 9, and the second cooling hole 21 is communicated with the first cooling hole 20 to form a cooling liquid flow channel. In practical use, a pipeline for supplying cooling liquid can be communicated with the first cooling hole 20, and the cooling liquid can flow out of the second cooling hole 21.

An oil inlet hole 22 and an oil outlet hole 23 are further formed in the side wall of the tower body 1, the oil inlet hole 22 is communicated with the mounting hole 9, and the oil outlet hole 23 is also communicated with the mounting hole 9. Hydraulic pipes may be connected to the oil inlet hole 22 and the oil outlet hole 23, and hydraulic oil may be injected into the mounting hole 9.

The embodiment also discloses a bearing seat mounting structure, referring to fig. 4 and 5, a bearing seat 24 is mounted in the first accommodating groove 5, a through hole is formed in the axial end face of the bearing seat 24, a bolt is inserted into the through hole and is in threaded connection with the seat hole 6, and the bearing seat 24 is fixed on the bottom of the first accommodating groove 5. A planetary gear mechanism 25 and a drive motor 26 are mounted on the bearing housing 24.

The planetary gear mechanism 25 comprises an inner gear ring 27, a planet carrier 28, a sun gear 29 and three identical planet pinions 30, wherein the inner gear ring 27 is fixed on the end face of the bearing seat 24, which faces away from the bottom of the first accommodating groove 5, by bolts, and the inner gear ring 27 and the bearing seat 24 are coaxially fixed. The driving motor 26 is fixed on the end face of the inner gear ring 27, which is away from the bottom of the first accommodating groove 5, through a bolt, and the driving motor 26 and the inner gear ring 27 are coaxially fixed. An installation groove 31 for installing the planet pinion 30 and the sun gear 29 is formed in one end, facing the bottom of the first accommodating groove 5, of the inner gear ring 27; the planet pinions 30 and the sun gear 29 are installed in the installation groove 31, the planet pinions 30 are engaged with the teeth of the ring gear 27, and the planet pinions 30 are also engaged with the sun gear 29. The sun gear 29 is coaxially fixed to the output shaft of the drive motor 26.

A fixed rod 301 is coaxially fixed on each planetary pinion 30, one end of the fixed rod 301, which is far away from the driving motor 26, is rotatably connected to the planet carrier 28, the planet carrier 28 rotates along with the rotation of the planetary pinion 30, the planet carrier 28 is rotatably connected to the sun gear 29, and the rotation axis of the planet carrier 28 is overlapped with the rotation axis of the sun gear 29. The outer ring of the carrier 28 is coaxially fitted with a bearing 32, the bearing 32 is coaxially mounted to the inner ring of the bearing housing 24, and the carrier 28 is rotatable relative to the bearing housing 24. A connecting shaft 33 is fixed on the end surface of the planet carrier 28 facing the bottom of the first accommodating groove 5, a driving wheel 34 is fixed on the connecting shaft 33, and the driving wheel 34 is accommodated in the second accommodating groove 7.

The driving motor 26 rotates to drive the sun gear 29 to rotate, so that the planet pinion 30 drives the planet carrier 28 to coaxially rotate relative to the bearing seat 24, and the connecting shaft 33 on the planet carrier 28 drives the driving wheel 34 to rotate, thereby realizing the speed reduction in the power transmission process from the driving motor 26 to the driving wheel 34.

Referring to fig. 6, a driven wheel 35 is disposed in the receiving groove three 8, the driven wheel 35 is engaged with the driving wheel 34, and the diameter of the driving wheel 34 is smaller than that of the driven wheel 35, so as to realize deceleration of the power transmission process from the driving wheel 34 to the driven wheel 35.

Referring to fig. 7 and 8, a cutter disc 37 is rotatably connected to the tower body 1, and a plurality of cutter mounting stations are circumferentially distributed on the cutter disc 37 at intervals for mounting a cutter head; and the cooling channel on the cutter disc 37 is communicated with the second cooling hole 21, and cooling liquid can flow out of the second cooling hole 21 and flow into the cooling channel on the cutter disc 37 to cool the cutter head on the cutter disc 37.

Referring to fig. 8 and 9, a transmission shaft 36 is coaxially fixed on an axial end face of the driven wheel 35, the other end of the transmission shaft 36 is coaxially fixed with the cutter head 37, and the transmission shaft 36 is arranged in the mounting hole 9. One end of the cutter disc 37 facing the driven wheel 35 is coaxially fixed with a first limiting tooth part 38, a second limiting tooth part 39 is coaxially installed on the transmission shaft 36, and the second limiting tooth part 39 is arranged between the driven wheel 35 and the first limiting tooth part 38. The transmission shaft 36 is provided with a guide block along the axis direction, the inner ring of the second limit tooth part 39 is provided with a guide groove for embedding the guide block, the second limit tooth part 39 and the transmission shaft 36 are detachably connected through the matching of the guide block and the guide groove, the second limit tooth part 39 can axially move along the transmission shaft 36, and the second limit tooth part 39 cannot rotate along the transmission shaft 36.

A ring sleeve 40 is further fixed on the transmission shaft 36, and the ring sleeve 40 is arranged between the driven wheel 35 and the second limit tooth part 39. A first oil groove 41 is formed in the ring sleeve 40, and a second oil groove 42 is formed between the ring sleeve 40 and the second limiting tooth part 39; the side wall of the first oil groove 41 close to the second oil groove 42 is provided with an oil filling hole 43, and the oil filling hole 43 is communicated with the second oil groove 42. The first oil groove 41 is communicated with the oil inlet hole 22, and the second oil groove 42 is communicated with the oil outlet hole 23.

When the cutter disc 37 needs to be limited to rotate, hydraulic oil can be injected into the oil inlet hole 22, so that the hydraulic oil flows into the first oil groove 41 and then flows from the first oil groove 41 to the second oil groove 42, and the second limit tooth part 39 is pushed to move towards the first limit tooth part 38 along the axial direction and is meshed with the first limit tooth part 38 to limit the rotation of the cutter disc 37. When the cutter disc 37 needs to rotate, the hydraulic oil in the oil groove II 42 can be pumped out from the oil outlet hole 23, so that the limiting tooth part II 39 is separated from the limiting tooth part I38 in the direction away from the limiting tooth part I38 along the axial direction, and the cutter disc 37 can continue to rotate and adjust the station.

The working principle of the embodiment is as follows: during actual installation, the cutter disc 37 is rotatably connected and installed on the tower body 1, the transmission shaft 36 is accommodated in the installation hole 9, and the driven wheel 35 is accommodated in the accommodating groove III 8; the bearing seat 24 is fixed at the bottom of the first accommodating groove 5, the planetary gear mechanism 25 is fixed on the bearing seat 24, the driving wheel 34 is fixed on the connecting shaft 33, the driving wheel 34 is accommodated in the second accommodating groove 7, and the driving wheel 34 is meshed with the driven wheel 35. The rotation of the driving motor 26 drives the rotation of the planet carrier 28, so that the driving wheel 34 rotates along with the planet carrier 28, and the driven wheel 35 rotates to rotate the cutter head 37.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. An integral type tower body structure, includes tower body (1), its characterized in that: a mounting cavity (2) is arranged in the tower body (1), a mounting seat (3) for mounting a bearing seat (24) is arranged in the mounting cavity (2), and the mounting seat (3) and the tower body (1) are integrally formed;

a first accommodating groove (5) for accommodating the bearing seat (24) is formed in the mounting seat (3), and a second accommodating groove (7) for accommodating the driving wheel (34) is formed in the bottom of the first accommodating groove (5); the mounting seat (3) is further provided with a third accommodating groove (8) for accommodating the driven wheel (35), and the third accommodating groove (8) is close to the side wall of the second accommodating groove (7) and penetrates through the second accommodating groove (7) and is communicated with the second accommodating groove (7); and a mounting hole (9) for mounting a transmission shaft (36) of a driven wheel (35) is formed in the bottom of the accommodating groove III (8).

2. An integrated tower structure according to claim 1, wherein: and a reinforcing rib (4) is arranged between the mounting seat (3) and the tower body (1).

3. An integrated tower structure according to claim 1, wherein: the bottom of the tower body (1) is provided with a connecting block (10) for installing a screw rod, and the connecting block (10) and the tower body (1) are integrally formed; be equipped with on connecting block (10) and supply lead screw hole (11) that the lead screw passed, the axis of lead screw hole (11) is on a parallel with the bottom of tower body (1) sets up, just the axis of lead screw hole (11) with the axis of mounting hole (9) is perpendicular.

4. An integrated tower structure according to claim 3, wherein: the tower body (1) bottom is equipped with oil outlet (101), the axis of oil outlet (101) with the axis of lead screw hole (11) is perpendicular and crossing.

5. An integrated tower structure according to claim 1, wherein: a first cooling hole (20) is formed in the tower body (1), and the first cooling hole (20) is used for injecting cooling liquid; be equipped with cooling hole two (21) on tower body (1), cooling hole two (21) with cooling hole one (20) intercommunication, cooling hole two (21) are used for providing the coolant liquid for blade disc (37).

6. An integrated tower structure according to claim 1, wherein: a wiring groove (16) is formed in the tower body (1), a first wiring hole (18) is further formed in the tower body (1), the first wiring hole (18) is communicated with the first wiring groove (16), a second wiring hole (19) is formed in the mounting hole (9), and the second wiring hole (19) is communicated with the first wiring groove (16); the tower body (1) is provided with a cover plate (17), and the cover plate (17) is used for covering the wiring groove (16).

7. An integrated tower structure according to claim 1, wherein: a first accommodating cavity (12) and a second accommodating cavity (13) are further arranged between the mounting seat (3) and the tower body (1), and the first accommodating cavity (12) and the second accommodating cavity (13) are arranged in the mounting cavity (2); the tower body (1) bottom is provided with fixed orifices one (14) and fixed orifices two (15), fixed orifices one (14) are corresponding to and hold chamber one (12) and set up, fixed orifices two (15) are corresponding to and hold chamber two (13) and set up.

8. The utility model provides a bearing frame mounting structure which characterized in that: the tower body structure comprises a bearing seat (24), a driving motor (26) and the integrated tower body structure as claimed in any one of claims 1 to 7, wherein the bearing seat (24) is fixed on the first accommodating groove (5), a planetary gear mechanism (25) is further arranged on the bearing seat (24), and the planetary gear mechanism (25) comprises an inner gear ring (27), a planet carrier (28), a sun gear (29) and a plurality of planet pinions (30);

the inner gear ring (27) is coaxially fixed on the bearing seat (24), the sun gear (29) is coaxially arranged in the inner gear ring (27), and the planet pinion (30) is meshed with the inner gear ring (27) and the sun gear (29); a bearing (32) is coaxially arranged on the bearing seat (24), and the planet carrier (28) is arranged on an inner ring of the bearing (32); a fixed rod is coaxially fixed on each planet pinion (30), and one end of the fixed rod, which is far away from the planet pinion (30), is rotatably connected to the planet carrier (28); the planet carrier (28) is rotationally connected with the sun gear (29), and the rotation axis of the planet carrier (28) is coincident with the rotation axis of the sun gear (29);

a connecting shaft (33) is fixed on one end of the planet carrier (28) departing from the sun gear (29), and a driving wheel (34) is arranged on the connecting shaft (33);

the driving motor (26) is fixed on the end face, away from the planet carrier (28), of the inner gear ring (27), and the output shaft of the driving motor (26) is coaxially fixed with the sun gear (29).

9. A numerical control sword tower which is characterized in that: comprising an integrated tower structure according to any of claims 1-7.

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