CN218224692U - Two-angle output power set type tool turret - Google Patents

Abstract

The utility model discloses a two angle output power pack formula sword tower, including two angle output power packs, two angle output power packs include zero angle power take off axle group, zero angle driving motor, ninety degree power take off axle group, zero angle driving motor and ninety degree driving motor, and zero angle power take off axle group includes a plurality of zero angle output shafts, zero angle output shaft be 0 with the contained angle between the main shaft that presss from both sides the anchor clamps place of dress work piece, be equipped with the cutter on the zero angle output shaft, ninety degree power take off axle group includes a plurality of ninety degree output shafts, ninety degree output shaft be 90 with the contained angle between the main shaft that presss from both sides the anchor clamps place of dress work piece. This patent is owing to adopt zero angle power take off axle group and ninety degrees power take off two directions power take off of axle group, can reduce the work piece and press from both sides the dress number of times to reduce intensity of labour, and improved machining efficiency.

Description

Two-angle output power set type tool turret

Technical Field

The utility model relates to a sword tower especially relates to a sword tower of using on lathe.

Background

The cutter tower that uses on present lathe, cutter distribution generally all face same direction, when needs add man-hour to other directions of work piece, need press from both sides dress location again to the work piece to satisfy the demand of actual processing. The workpiece to be machined is clamped again, so that the labor intensity of operators is increased, the working efficiency is reduced, and the machining precision is influenced by re-clamping. For example, the patent document with the publication number of CN215547007U is disclosed by the national intellectual property office, which adopts the following technical scheme: the utility model provides a servo tool turret seat, includes the tool turret seat module, tool turret seat module includes the tool turret seat, be equipped with rotary gear on the tool turret seat, rotary gear one side is fixed with the blade disc, be equipped with fixed gear in the rotary gear, fixed gear one side is equipped with the removal gear, and the opposite side is fixed on the tool turret seat, be equipped with the piston in the removal gear, the piston the removal gear rotary gear with the fixed gear sets up with one heart. And one side of the movable gear, which is close to the cutter tower seat, is provided with movable teeth, one side of the rotary gear and one side of the fixed gear, which is far away from the cutter tower seat, are provided with fixed teeth, and the movable teeth and the fixed teeth can be meshed together. A first oil cavity is formed between the movable gear and the piston, a first bushing is arranged between the fixed gear and the cutter tower seat shaft, and a second oil cavity is arranged between the fixed gear and the first bushing. And a first oil duct and a second oil duct are arranged in the tool turret seat, the first oil duct is connected with the first oil cavity, and the second oil duct is connected with the second oil cavity. The rotary cutter tower comprises a cutter tower seat module, a mandrel rotating module and a driving motor module, wherein the mandrel rotating module and the driving motor module are installed on the cutter tower seat module. The mandrel rotating module comprises a mandrel, a first shaft cover, a bearing, a milling shaft seat, a second shaft cover, a belt pulley, a belt and a motor, wherein the first shaft cover is arranged above the milling shaft seat in an upward measuring mode, the second shaft cover is arranged at the lower end of the milling shaft seat, the bearing is arranged in the milling shaft seat, the mandrel is arranged in the bearing, the mandrel is connected with the belt, the belt penetrates through the milling shaft seat and is connected with the belt pulley, and the belt pulley is connected with the driving motor.

The tools of the patent document are distributed along the circumferential surface of the cutter head, and the tools are selected by rotating the cutter head, so that the tools are perpendicular to the axis of the clamping main shaft in which the workpiece is located, and thus the processing at other azimuth angles cannot be satisfied.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can reduce two angle output power pack formula turrets that the work piece pressed from both sides the dress number of times.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

a two-angle output power set type tool turret comprises a rack, a lifting driving motor, a vertical lead screw, a driving nut, a lifting slider, a vertical slide rail and a two-angle output power set, wherein the driving nut is arranged on one side of the lifting slider and integrally formed with the lifting slider; the two-angle output power set comprises a zero-angle power output shaft set, a zero-angle driving motor, a ninety-angle power output shaft set, a zero-angle driving motor and a ninety-angle driving motor, wherein the zero-angle driving motor and the ninety-angle driving motor respectively drive the zero-angle driving motor and the ninety-angle power output shaft set to rotate through a transmission mechanism, the zero-angle power output shaft set comprises a plurality of zero-angle output shafts, an included angle between each zero-angle output shaft and a main shaft where a clamp for clamping a processed workpiece is located is 0 degree, a cutter is arranged on each zero-angle output shaft, the ninety-angle power output shaft set comprises a plurality of ninety-angle output shafts, the included angle between each ninety-angle output shaft and the main shaft where the clamp for clamping the processed workpiece is located is 90 degrees, and a cutter is arranged on each ninety-angle output shaft.

Furthermore, the number of zero-angle output shafts in the zero-angle power output shaft group is 4, the turning power output shaft, the milling power output shaft, the polishing power output shaft and the drilling power output shaft are sequentially arranged from top to bottom, a turning tool is installed on the turning power output shaft, a milling cutter is installed on the milling power output shaft, a polishing wheel is installed on the polishing power output shaft, and a drill bit is installed on the drilling power output shaft.

Furthermore, there are 4 ninety-degree output shafts in the ninety-degree power output shaft group, from top to bottom in proper order for grinding ninety-degree power output shaft, polishing ninety-degree power output shaft, turning ninety-degree power output shaft and drilling ninety-degree power output shaft, the grinding wheel is installed on the grinding ninety-degree power output shaft, the polishing wheel is installed on the polishing ninety-degree power output shaft, a turning tool is installed on the turning ninety-degree power output shaft, and a drill bit is installed on the drilling ninety-degree power output shaft.

Furthermore, the two-angle output power unit also comprises a case, and the zero-angle driving motor, the ninety-angle driving motor and the transmission mechanism are packaged in the case.

Further, a transmission mechanism in the zero-angle power output shaft group comprises a driving gear, a transition gear A, a transition gear B, a turning driving gear, a milling driving gear, a polishing driving gear and a drilling driving gear which are sequentially meshed, the driving gear is installed on an output shaft of the zero-angle driving motor, the transition gear A and the transition gear B are installed on a fixing plate in a case, and the turning driving gear, the milling driving gear, the polishing driving gear and the drilling driving gear are respectively installed on a turning power output shaft, a milling power output shaft, a polishing power output shaft and a drilling power output shaft.

Further, the transmission mechanism in the ninety-degree power output shaft group comprises a ninety-degree drilling transmission gear, a ninety-degree turning transmission gear, a ninety-degree polishing transmission gear and a ninety-degree polishing transmission gear which are meshed in sequence, an output shaft of a ninety-degree driving motor is coupled with a drilling ninety-degree power output shaft, and the ninety-degree drilling transmission gear, the ninety-degree turning transmission gear, the ninety-degree polishing transmission gear and the ninety-degree polishing transmission gear are respectively arranged on the drilling ninety-degree power output shaft, the turning ninety-degree power output shaft, the polishing ninety-degree power output shaft and the polishing ninety-degree power output shaft.

Furthermore, the lifting driving motor adopts a servo motor.

Furthermore, the frame adopts a cross frame structure, a reinforcing plate is arranged in a frame on the side wall of the frame, and a through hole is formed in the reinforcing plate.

The beneficial effects of the utility model reside in that:

this patent sword tower adopts two direction power take off of zero angle power take off axle group and ninety degrees power take off axle group, can reduce the work piece and press from both sides the dress number of times to reduce intensity of labour, and improved machining efficiency.

Drawings

The invention will be further explained with the aid of the accompanying drawings, in which, however, the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, without inventive step, further drawings can be obtained in accordance with the following drawings:

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic structural view of the two-angle output power set shown in FIG. 1;

FIG. 3 is a schematic structural diagram of the interior of the two-angle output power group shown in FIG. 2;

fig. 4 is a perspective view of fig. 3.

In the figure: 1. a frame; 2. a lifting drive motor; 3. a vertical lead screw; 4. a drive nut; 5. a lifting slide block; 6. a vertical slide rail; 7. two-angle output power set; 8. a bearing seat; 9. a reinforcing plate; 10. a through hole; 11. a zero angle power output shaft set; 12. a ninety degree power output shaft group; 13. a chassis; 14. a zero angle drive motor; 15. a ninety degree drive motor; 16. turning a power output shaft; 17. milling a power output shaft; 18. polishing the power output shaft; 19. drilling a power output shaft; 20. a driving gear; 21. a transition gear A; 22. a transition gear B; 23. lathing a driving gear; 24. milling a driving gear; 25. polishing the driving gear; 26. drilling a driving gear; 27. grinding a ninety-degree power output shaft; 28. polishing and processing a ninety-degree power output shaft; 29. lathing a ninety-degree power output shaft; 30. drilling and processing a ninety-degree power output shaft; 31. machining the transmission gear by a ninety-degree drill; 32. machining a drive gear by ninety degrees; 33. machining the driving gear by ninety-degree polishing; 34. a ninety degree mill machines the drive gear.

Detailed Description

In order to make the technical solutions of the present invention better understood, the following detailed description of the present invention is provided with reference to the accompanying drawings and specific embodiments, and it should be noted that the embodiments and features of the embodiments of the present invention can 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", "length", "width", "thickness", "upper surface", "lower surface", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "forward", "reverse", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and for simplicity of description, and do not indicate or imply that the device or element 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.

As shown in fig. 1, a two-angle output power unit type turret includes a frame 1, a lifting driving motor 2, a vertical lead screw 3, a driving nut 4, a lifting slider 5, a vertical slide rail 6 and a two-angle output power unit 7, wherein the driving nut 4 is arranged on one side of the lifting slider 5 and is integrally formed with the lifting slider 5, the two-angle output power unit 7 is arranged on the lifting slider 5, the lifting slider 5 is arranged on the vertical slide rail 6, the vertical slide rail 6 is arranged on the side wall of the frame 1, the vertical lead screw 3 passes through the driving nut 4 and is in threaded connection with the driving nut 4, the vertical lead screw 3 is arranged on a bearing seat 8 through a bearing, the bearing seat 8 is fixed on the frame 1 and is located between the vertical slide rails 6, the lifting driving motor 2 is arranged at the top of the frame 1 and is connected with the upper end of the vertical lead screw 3, and the lifting driving motor 2 adopts a servo motor. The frame 1 adopts a cross frame structure, a reinforcing plate 9 is arranged in a frame of the side wall of the frame, and a through hole 10 is formed in the reinforcing plate 9.

As shown in fig. 2, 3 and 4, the two-angle output power group 7 includes a zero-angle power output shaft group 11, a ninety-degree power output shaft group 12, a chassis 13, a zero-angle drive motor 14 and a ninety-degree drive motor 15, the zero-angle drive motor 14 and the ninety-degree drive motor 15, and a transmission mechanism enclosed in the chassis 13. The zero-angle driving motor 14 and the ninety-angle driving motor 15 respectively drive the zero-angle power output shaft group 11 and the ninety-angle power output shaft group 12 to rotate through the transmission mechanism.

The zero-angle power output shaft group 11 comprises a plurality of zero-angle output shafts, an included angle between each zero-angle output shaft and a main shaft where a clamp for clamping a machined workpiece is located is 0 degree, and a cutter is arranged on each zero-angle output shaft.

Specifically, there are 4 zero-angle output shafts in the zero-angle power output shaft group 11, and the turning power output shaft 16, the milling power output shaft 17, the polishing power output shaft 18 and the drilling power output shaft 19 are sequentially arranged from top to bottom, a turning tool is mounted on the turning power output shaft 16, a milling cutter is mounted on the milling power output shaft 17, a polishing wheel is mounted on the polishing power output shaft 18, and a drill bit is mounted on the drilling power output shaft 19.

The transmission mechanism in the zero-angle power output shaft group 11 comprises a driving gear 20, a transition gear A21, a transition gear B22, a turning driving gear 23, a milling driving gear 24, a polishing driving gear 25 and a drilling driving gear 26 which are sequentially meshed, wherein the driving gear 20 is installed on an output shaft of a zero-angle driving motor 14, the transition gear A21 and the transition gear B22 are installed on a fixing plate in a case 13, and the turning driving gear 23, the milling driving gear 24, the polishing driving gear 25 and the drilling driving gear 26 are respectively installed on a turning power output shaft 16, a milling power output shaft 17, a polishing power output shaft 18 and a drilling power output shaft 19.

The ninety-degree power output shaft group 12 comprises a plurality of ninety-degree output shafts, an included angle between each ninety-degree output shaft and a main shaft where a clamp for clamping a processed workpiece is located is 90 degrees, and a cutter is arranged on each ninety-degree output shaft.

Specifically, there are 4 ninety-degree output shafts in the ninety-degree power output shaft group 12, and from top to bottom, there are grinding wheel installed on the grinding ninety-degree power output shaft 27, polishing ninety-degree power output shaft 28, turning ninety-degree power output shaft 29 and drilling ninety-degree power output shaft 30, and the polishing ninety-degree power output shaft 28 is installed with polishing wheel, the turning ninety-degree power output shaft 29 is installed with turning tool, and the drilling ninety-degree power output shaft 30 is installed with drill bit.

The transmission mechanism in the ninety-degree power output shaft group 12 comprises a ninety-degree drilling transmission gear 31, a ninety-degree turning transmission gear 32, a ninety-degree polishing transmission gear 33 and a ninety-degree grinding transmission gear 34 which are sequentially meshed, an output shaft of the ninety-degree driving motor 15 is coupled with a drilling ninety-degree power output shaft 30, and the ninety-degree drilling transmission gear 31, the ninety-degree turning transmission gear 32, the ninety-degree polishing transmission gear 33 and the ninety-degree grinding transmission gear 34 are respectively installed on the drilling ninety-degree power output shaft 30, the turning ninety-degree power output shaft 29, the polishing ninety-degree power output shaft 28 and the grinding ninety-degree power output shaft 27.

This patent adopts foretell structure, designs power take off for the two-way power take off of zero angle power take off axle group and ninety degrees power take off axle group, can reduce the work piece and press from both sides the dress number of times to reduce intensity of labour, and improved machining efficiency.

Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent. Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (8)

1. The utility model provides a two angle output power pack formula sword towers which characterized in that: the lifting mechanism comprises a rack, a lifting driving motor, a vertical screw rod, a driving nut, a lifting slider, a vertical slide rail and two-angle output power sets, wherein the driving nut is arranged on one side of the lifting slider and is integrally formed with the lifting slider; the two-angle output power set comprises a zero-angle power output shaft set, a zero-angle driving motor, a ninety-angle power output shaft set, a zero-angle driving motor and a ninety-angle driving motor, wherein the zero-angle driving motor and the ninety-angle driving motor respectively drive the zero-angle driving motor and the ninety-angle power output shaft set to rotate through a transmission mechanism, the zero-angle power output shaft set comprises a plurality of zero-angle output shafts, an included angle between each zero-angle output shaft and a main shaft where a clamp for clamping a processed workpiece is located is 0 degree, a cutter is arranged on each zero-angle output shaft, the ninety-angle power output shaft set comprises a plurality of ninety-angle output shafts, the included angle between each ninety-angle output shaft and the main shaft where the clamp for clamping the processed workpiece is located is 90 degrees, and a cutter is arranged on each ninety-angle output shaft.

2. The two-angle output power pack turret according to claim 1, wherein: the zero-angle power output shaft group is characterized in that 4 zero-angle output shafts are arranged in the zero-angle power output shaft group, and sequentially comprise a turning power output shaft, a milling power output shaft, a polishing power output shaft and a drilling power output shaft from top to bottom, wherein turning tools are installed on the turning power output shaft, milling cutters are installed on the milling power output shaft, polishing wheels are installed on the polishing power output shaft, and drill bits are installed on the drilling power output shaft.

3. The two-angle output power pack turret according to claim 2, wherein: the ninety-degree power output shaft group is provided with 4 ninety-degree output shafts, the ninety-degree power output shaft is sequentially ground, polished, turned and drilled from top to bottom, a grinding wheel is mounted on the ninety-degree power output shaft, a polishing wheel is mounted on the ninety-degree power output shaft, a turning tool is mounted on the ninety-degree power output shaft, and a drill bit is mounted on the ninety-degree power output shaft.

4. The two-angle output power pack turret according to claim 3, wherein: the two-angle output power set further comprises a case, and the zero-angle driving motor, the ninety-angle driving motor and the transmission mechanism are packaged in the case.

5. The two angle output power pack turret according to claim 4, wherein: the transmission mechanism in the zero-angle power output shaft group comprises a driving gear, a transition gear A, a transition gear B, a turning driving gear, a milling driving gear, a polishing driving gear and a drilling driving gear which are sequentially meshed, the driving gear is installed on an output shaft of a zero-angle driving motor, the transition gear A and the transition gear B are installed on a fixing plate in a case, and the turning driving gear, the milling driving gear, the polishing driving gear and the drilling driving gear are respectively installed on a turning power output shaft, a milling power output shaft, a polishing power output shaft and a drilling power output shaft.

6. The two angle output power pack turret according to claim 5, wherein: the transmission mechanism in the ninety-degree power output shaft group comprises a ninety-degree drilling transmission gear, a ninety-degree turning transmission gear, a ninety-degree polishing transmission gear and a ninety-degree grinding transmission gear which are meshed in sequence, an output shaft of a ninety-degree driving motor is coupled with a drilling ninety-degree power output shaft, and the ninety-degree drilling transmission gear, the ninety-degree turning transmission gear, the ninety-degree polishing transmission gear and the ninety-degree grinding transmission gear are respectively arranged on the drilling ninety-degree power output shaft, the turning ninety-degree power output shaft, the polishing ninety-degree power output shaft and the grinding ninety-degree power output shaft.

7. The two-angle output power pack turret according to claim 1, wherein: the lifting driving motor adopts a servo motor.

8. The two-angle output power pack turret according to claim 1, wherein: the frame adopts a cross frame structure, a reinforcing plate is arranged in a frame of the side wall of the frame, and a through hole is formed in the reinforcing plate.

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