CN221415699U - Rotor flat-head machine - Google Patents

Abstract

The utility model provides a rotor flat head machine, wherein a cutting assembly can synchronously polish two ends of a rotor in flat head, the concrete structure comprises a machine body, a clamping chuck and a cutting mechanism are vertically arranged on the machine body, the clamping chuck is used for clamping and rotating the rotor, and the cutting mechanism is used for polishing the rotor in flat head; the cutting mechanism comprises cutting assemblies which are respectively and oppositely arranged at the front side and the rear side of the clamping chuck; the machine body is further provided with a front-back sliding component, the front side and the back side of the clamping chuck are respectively provided with a left-right sliding component, the front-back sliding component is used for driving the left-right sliding component to slide back and forth, and the left-right sliding component is used for driving the cutting component to slide left and right.

Description

Rotor flat-head machine

Technical Field

The utility model relates to the technical field of flat-head machines, in particular to a rotor flat-head machine.

Background

In the processing process of the rotor, burrs and unevenness appear at the rotor notch due to irregular cutting, so that the quality of the rotor is affected, and the rotor notch needs to be polished by a rotor flat head machine. The rotor flat-head machine is a special machine tool for processing the end face of the rotor by utilizing a cutter, is arranged at the finishing section of the rotor production line, and has higher processing precision and reasonable structure, so that the requirement of the whole production line can be met.

Currently, chinese patent with bulletin number CN216065842U discloses an adjustable steel pipe facing machine, which comprises a base, a mobile station slidingly connected above the base, a mounting rack fixedly connected above the mobile station, a facing component fixedly connected on the mounting rack, and an adjusting component laterally connected with the facing component, wherein the adjusting component is used for driving the facing component to reciprocate above the base along the horizontal direction.

According to the technical scheme, the steel pipe to be processed can be fixed firstly during operation, the steel pipe is not required to be butted with the cutter of the flat head machine during fixing, the labor intensity of workers is reduced, the complication of manual positioning is avoided, the cutter can be butted with the end part of the steel pipe through operating the adjusting assembly, meanwhile, the cutter in the flat head assembly is also of an adjustable design, the steel pipes with different pipe diameters can be processed in a compatible mode, and the application range of the device is effectively widened.

However, the facing machine in the above technical scheme can only polish one end of the steel pipe independently at a time, and when the other end of the steel pipe needs to be polished, an operator is required to replace the position after taking down the polished steel pipe, so that the unground end faces the cutter, the process is more complicated, and the improvement of the working efficiency is not facilitated.

Disclosure of utility model

In view of the above, the present utility model aims to provide a rotor flat head machine, in which cutting assemblies are disposed on both front and rear sides of a clamping chuck, so that cutting and polishing can be performed on both ends of a rotor at the same time.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

The rotor flat head machine comprises a machine body, wherein a clamping chuck and a cutting mechanism are vertically arranged on the machine body, the clamping chuck is used for clamping and rotating a rotor, and the cutting mechanism is used for flat head polishing of the rotor; the cutting mechanism comprises cutting assemblies which are respectively and oppositely arranged at the front side and the rear side of the clamping chuck;

The machine body is further provided with a front-back sliding component, the front side and the back side of the clamping chuck are respectively provided with a left-right sliding component, the front-back sliding component is used for driving the left-right sliding component to slide back and forth, and the left-right sliding component is used for driving the cutting component to slide left and right.

Through the technical scheme, the clamping chuck clamps the middle part of the rotor, then the cutting assemblies on the front side and the rear side can simultaneously carry out flat head polishing on the two ends of the rotor, and meanwhile, the cutting assemblies can also move back and forth and left and right, so that the cutting assemblies can be better positioned with the rotor and then polished flat heads, and the flat head efficiency of the rotor is improved.

Preferably, the front-back sliding assembly comprises a front-back driving piece and a front-back sliding plate, the front-back sliding plates are respectively arranged on the front side and the back side of the clamping chuck, and the front-back driving piece is used for driving the front-back sliding plate to move back and forth relative to the clamping chuck.

Through the technical scheme, the front and rear sliding plates can be driven by the front and rear driving pieces to adjust the interval between the front and rear sliding plates and the rotor according to the length of the rotor, so that the cutting assembly can meet the rotor cutting flat heads with different lengths.

Preferably, the front and rear driving piece comprises a plurality of groups of front and rear driving sources, and the front and rear driving sources comprise a first screw rod, a first sliding rail, a first motor and two first nut seats;

The output end of the first motor is connected with a first screw rod, the first screw rod is horizontally and rotatably arranged on the machine body, the front end of the first screw rod extends to the front side of the clamping chuck, and the rear end of the first screw rod extends to the rear side of the clamping chuck; the first sliding rail is arranged in parallel with the first screw rod, one side of each of the two first nut seats is respectively in threaded connection with the front end and the rear end of the first screw rod, the other side of each of the two first nut seats is in sliding connection with the first sliding rail, and the front nut seat and the rear nut seat move relatively; the front and back sliding plate is connected with the first nut seat.

Through the technical scheme, the first motor drives the first screw rod to rotate, the first screw rod drives two first nut seats in threaded connection with the first screw rod to perform relative movement, and simultaneously the two first nut seats drive the front and back sliding plates on the front side and the back side of the clamping chuck to perform relative movement with the clamping chuck respectively, so that the distance between the front and back sliding plates and the clamping chuck can be adjusted.

Preferably, the front end and the rear end of the first screw rod are respectively provided with a telescopic shield, the telescopic shields comprise a plurality of shields, the front shield of two adjacent shields is retracted into the rear shield, and one sides of the plurality of shields are respectively arranged on the first sliding rail in a sliding manner;

one end of the protective cover, which is close to the clamping chuck, is connected with the clamping chuck, and one end of the protective cover, which is far away from the clamping chuck, is connected with the front-back sliding plate.

Through the technical scheme, the arrangement of the telescopic shield can prevent scraps generated in the cutting and polishing processes of the two ends of the rotor from falling onto the screw rod, and the rotation of the screw rod is affected.

Preferably, the left-right sliding assembly comprises a left-right sliding plate and a left-right driving piece, and the left-right driving piece is used for driving the left-right sliding plate to slide left and right;

The left and right driving piece comprises a second motor, a second screw rod, a second sliding rail and a second nut seat;

the upper side of the front and rear sliding plate is provided with a containing groove along the left and right direction, the second screw rod and the second sliding rail are arranged in the containing groove, one side of the second nut seat is in threaded connection with the second screw rod, and the other side of the second nut seat is in sliding connection with the second sliding rail; one side of the second nut seat far away from the bottom of the accommodating groove is connected with the left sliding plate and the right sliding plate.

Through the technical scheme, the output end of the second motor drives the second screw rod to rotate, and the second screw rod drives the second nut seat to slide left and right, so that the left and right sliding plates slide left and right, and the cutting assembly on the left and right sliding plates can polish the rotor better.

Preferably, the cutting assembly comprises three fixed blocks, a chamfer blade, a sharpening blade and a drill bit;

The three fixed blocks are arranged on the left sliding plate and the right sliding plate at intervals, and the chamfering blade, the polishing blade and the drill bit are respectively arranged on one side, facing the clamping chuck, of the three fixed blocks.

Through the technical scheme, a user can chamfer, polish or rotate the hole on the rotor according to the requirement.

Preferably, the left sliding plate and the right sliding plate are also provided with push-out components, and the push-out components comprise an air cylinder and a discharge guide rail; the cylinder sets up on the left and right slip board of centre gripping chuck one side, just the output of cylinder is towards centre gripping chuck one side, the ejection of compact guide rail corresponds the cylinder slope and sets up on the left and right slip board of centre gripping chuck opposite side, just the ejection of compact guide rail is close to the height that the centre gripping chuck one end is greater than ejection of compact guide rail kept away from centre gripping chuck one end.

Through above-mentioned technical scheme, after the rotor is polished flat head, with cylinder counter-rotating rotor, then release the centre gripping chuck with the rotor and fall into ejection of compact guide rail on, then collect, need not the manual work and take out the rotor, be favorable to improving work efficiency.

Drawings

FIG. 1 is a schematic diagram of an embodiment;

FIG. 2 is an enlarged view of the A-configuration cutting assembly;

FIG. 3 is a schematic diagram of a front-to-rear glide assembly;

FIG. 4 is an enlarged view of the B structure;

FIG. 5 is a schematic diagram of a left-right slip assembly;

Fig. 6 is an enlarged view of the C structure.

Reference numerals: 1. a body; 2. clamping a chuck; 3. a cutting assembly; 31. a fixed block; 32. chamfering the blade; 33. polishing the blade; 34. a drill bit; 4. a front-rear sliding assembly; 41. a first screw rod; 42. a first slide rail; 43. a first motor; 44. a first nut seat; 5. a left-right slip assembly; 51. a second motor; 52. a second screw rod; 53. a second slide rail; 54. a second nut seat; 55. a receiving groove; 6. a front-rear sliding plate; 7. a telescoping shield; 71. a protective cover; 8. a left-right sliding plate; 9. a push-out assembly; 91. a cylinder; 92. and a discharging guide rail.

Detailed Description

The following detailed description of the utility model is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the utility model.

Referring to fig. 1, a rotor end-facing machine comprises a machine body 1, wherein a clamping chuck 2 and a cutting mechanism are vertically arranged on the machine body 1, the clamping chuck 2 is used for clamping and rotating a rotor, and the cutting mechanism is used for end-facing polishing the rotor; the cutting mechanism comprises cutting assemblies 3 which are respectively arranged at the front side and the rear side of the clamping chuck 2. The centre part of rotor is cliied to centre gripping chuck 2, then the cutting component 3 of front and back both sides can carry out the flat head simultaneously to the both ends of rotor and polish, need not to be the same with traditional flat head machine, can only polish the one end of rotor once, and this technical scheme is favorable to improving the flat head speed of rotor, alleviates workman's work burden. In order to enable the cutting assembly 3 to cut and polish the two ends of the rotor better, the machine body 1 is further provided with a front-back sliding assembly 4, the front side and the back side of the clamping chuck 2 are respectively provided with a left-right sliding assembly 5, the front-back sliding assembly 4 is used for driving the left-right sliding assembly 5 to slide back and forth, and the left-right sliding assembly 5 is used for driving the cutting assembly 3 to slide left and right. The cutting assembly 3 moves back and forth and left and right, so that the cutting assembly 3 can be better positioned with the rotor and then polished for flat head, and the flat head efficiency of the rotor is improved.

Referring to fig. 3 and 4, specifically, the front-back sliding assembly 4 includes a front-back driving member and a front-back sliding plate 6, the front-back sliding plate 6 is respectively disposed on front and back sides of the clamping chuck 2, and the front-back driving member is used for driving the front-back sliding plate 6 to move back and forth relative to the clamping chuck 2. The front and rear sliding plates 6 can be driven by the front and rear driving pieces to adjust the interval between the front and rear sliding plates 6 and the rotors according to the lengths of the rotors, so that the cutting assembly 3 can meet the cutting flat heads of the rotors with different lengths. The front-rear driving piece comprises a plurality of groups of front-rear driving sources, and the front-rear driving sources comprise a first screw rod 41, a first sliding rail 42, a first motor 43 and two first nut seats 44; the output end of the first motor 43 is connected with a first screw rod 41, the first screw rod 41 is horizontally and rotatably arranged on the machine body 1, the front end of the first screw rod 41 extends to the front side of the clamping chuck 2, and the rear end of the first screw rod 41 extends to the rear side of the clamping chuck 2; the first slide rail 42 is arranged in parallel with the first screw rod 41, one side of the two first nut seats 44 is respectively in threaded connection with the front end and the rear end of the first screw rod 41, the other side of the two first nut seats 44 is in sliding connection with the first slide rail 42, and the front and the rear first nut seats 44 move relatively; the front and rear slide plate 6 is connected to the first nut seat 44. The first motor 43 drives the first screw rod 41 to rotate, the first screw rod 41 drives two first nut seats 44 in threaded connection with the first screw rod 41 to perform relative movement, and simultaneously the two first nut seats 44 respectively drive the front and rear sliding plates 6 on the front side and the rear side of the clamping chuck 2 to perform relative movement with the clamping chuck 2, so that the distance between the front and rear sliding plates 6 and the clamping chuck 2 can be adjusted. Since the spare space between the front and rear sliding plates 6 and the clamping chuck 2 can generate fragments when the rotor is polished by the cutting assembly 3, in order to prevent the fragments from entering the gap to affect the rotation of the first screw rod, the front and rear ends of the first screw rod 41 are respectively provided with a telescopic shield 7, the telescopic shield 7 comprises a plurality of shields 71, the front shield 71 of two adjacent shields 71 is retracted into the rear shield 71, and one sides of the shields 71 are respectively arranged on the first sliding rail 42 in a sliding manner; one end of the plurality of protective covers 71, which is close to the clamping chuck 2, is connected with the clamping chuck 2, and one end of the plurality of protective covers 71, which is far away from the clamping chuck, is connected with the front and back sliding plate 6. When the front and rear slide plate 6 moves away from the clamping chuck 2, the protective cover 71 is stretched; when the front and rear slide plate 6 moves in the direction of the chuck 2, the shield 71 is compressed.

Referring to fig. 5 and 6, the left-right sliding assembly 5 includes a left-right sliding plate 8 and a left-right driving member for driving the left-right sliding plate 8 to slide left and right; the left-right driving piece comprises a second motor 51, a second screw rod 52, a second sliding rail 53 and a second nut seat 54; the upper side of the front and rear sliding plate 6 is provided with a containing groove 55 along the left and right direction, a second screw rod 52 and a second sliding rail 53 are arranged in the containing groove 55, one side of a second nut seat 54 is in threaded connection with the second screw rod 52, and the other side of the second nut seat 54 is in sliding connection with the second sliding rail 53; the side of the second nut seat 54 away from the bottom of the accommodating groove 55 is connected with the left and right sliding plates 8. The output end of the second motor 51 drives the second screw rod 52 to rotate, and the second screw rod 52 drives the second nut seat 54 to slide left and right, so that the left and right sliding plates 8 slide left and right, and the cutting assembly 3 on the left and right sliding plates 8 can polish the rotor better.

Referring to fig. 2, the cutting assembly 3 includes three fixed blocks 31, a chamfering blade 32, a polishing blade 33, and a drill 34; the three fixing blocks 31 are arranged on the left and right sliding plates 8 at intervals, and the chamfering blade 32, the polishing blade 33 and the drill 34 are respectively arranged on one side of the three fixing blocks 31 facing the clamping chuck 2. The user can slide left and right through the left and right sliding plate 8 according to the demand to make the blade of different functions aim at the rotor, thereby chamfer, polish or change the hole to the rotor.

Referring to fig. 1 and 2, a push-out assembly 9 is further provided on the left and right sliding plates 8, and the push-out assembly 9 includes a cylinder 91 and a discharge guide rail 92; the cylinder 91 is arranged on the left and right sliding plates 8 on one side of the clamping chuck 2, the output end of the cylinder 91 faces one side of the clamping chuck 2, the discharging guide rail 92 is obliquely arranged on the left and right sliding plates 8 on the other side of the clamping chuck 2 corresponding to the cylinder 91, and the height of the discharging guide rail 92, which is close to one end of the clamping chuck 2, is larger than that of the discharging guide rail 92, which is far away from one end of the clamping chuck 2. After the rotor is polished flat, the cylinder 91 is aligned with the rotor, then the rotor is pushed out of the clamping chuck 2 and falls onto the discharging guide rail 92, and then the rotor is collected without being manually taken out, so that the working efficiency is improved.

Of course, the above is only a typical example of the utility model, and other embodiments of the utility model are also possible, and all technical solutions formed by equivalent substitution or equivalent transformation fall within the scope of the utility model claimed.

Claims (7)

1. The rotor flat head machine comprises a machine body (1), wherein a clamping chuck (2) and a cutting mechanism are vertically arranged on the machine body (1), the clamping chuck (2) is used for clamping and rotating a rotor, and the cutting mechanism is used for flat head polishing of the rotor; the method is characterized in that: the cutting mechanism comprises cutting assemblies (3) which are respectively and oppositely arranged at the front side and the rear side of the clamping chuck (2);

The machine body (1) is further provided with a front-back sliding component (4), left-right sliding components (5) are respectively arranged on the front side and the back side of the clamping chuck (2), the front-back sliding component (4) is used for driving the left-right sliding component (5) to slide back and forth, and the left-right sliding component (5) is used for driving the cutting component (3) to slide left and right.

2. The rotor end-facing machine of claim 1, wherein: the front-back sliding assembly (4) comprises a front-back driving piece and a front-back sliding plate (6), the front-back sliding plate (6) is arranged on the front side and the back side of the clamping chuck (2) respectively, and the front-back driving piece is used for driving the front-back sliding plate (6) to move back and forth relative to the clamping chuck (2).

3. A rotor end-facing machine according to claim 2, characterized in that: the front-rear driving piece comprises a plurality of groups of front-rear driving sources, wherein each front-rear driving source comprises a first screw rod (41), a first sliding rail (42), a first motor (43) and two first nut seats (44);

The output end of the first motor (43) is connected with a first screw rod (41), the first screw rod (41) is horizontally and rotatably arranged on the machine body (1), the front end of the first screw rod (41) extends to the front side of the clamping chuck (2), and the rear end of the first screw rod (41) extends to the rear side of the clamping chuck (2); the first sliding rail (42) is arranged in parallel with the first screw rod (41), one side of each of the two first nut seats (44) is respectively in threaded connection with the front end and the rear end of the first screw rod (41), the other side of each of the two first nut seats is in sliding connection with the first sliding rail (42), and the front end and the rear end of each of the two first nut seats (44) move relatively; the front and rear sliding plate (6) is connected with the first nut seat (44).

4. A rotor end-facing machine according to claim 3, characterized in that: the front end and the rear end of the first screw rod (41) are respectively provided with a telescopic shield (7), each telescopic shield (7) comprises a plurality of shields (71), the front shield (71) of two adjacent shields (71) is retracted into the rear shield (71), and one sides of the plurality of shields (71) are respectively arranged on the first sliding rail (42) in a sliding manner;

one end of a plurality of protective covers (71) close to the clamping chuck (2) is connected with the clamping chuck (2), and one end of a plurality of protective covers (71) far away from the clamping chuck is connected with the front-back sliding plate (6).

5. A rotor end-facing machine according to claim 2, characterized in that: the left-right sliding assembly (5) comprises a left-right sliding plate (8) and a left-right driving piece, and the left-right driving piece is used for driving the left-right sliding plate (8) to slide left and right;

The left-right driving piece comprises a second motor (51), a second screw rod (52), a second sliding rail (53) and a second nut seat (54);

The upper side of the front and rear sliding plate (6) is provided with a containing groove (55) along the left and right direction, the second screw rod (52) and the second sliding rail (53) are arranged in the containing groove (55), one side of the second nut seat (54) is in threaded connection with the second screw rod (52), and the other side of the second nut seat (54) is in sliding connection with the second sliding rail (53); one side of the second nut seat (54) far away from the bottom of the accommodating groove (55) is connected with the left sliding plate and the right sliding plate (8).

6. The rotor end-facing machine of claim 5, wherein: the cutting assembly (3) comprises three fixed blocks (31), a chamfering blade (32), a polishing blade (33) and a drill bit (34);

The three fixing blocks (31) are arranged on the left sliding plate and the right sliding plate (8) at intervals, and the chamfering blade (32), the polishing blade (33) and the drill bit (34) are respectively arranged on one side, facing the clamping chuck (2), of the three fixing blocks (31).

7. The rotor end-facing machine of claim 6, wherein: a push-out assembly (9) is further arranged on the left sliding plate (8) and the right sliding plate, and the push-out assembly (9) comprises an air cylinder (91) and a discharge guide rail (92); the cylinder (91) is arranged on the left and right sliding plates (8) on one side of the clamping chuck (2), the output end of the cylinder (91) faces one side of the clamping chuck (2), the discharging guide rail (92) is obliquely arranged on the left and right sliding plates (8) on the other side of the clamping chuck (2) corresponding to the cylinder (91), and the height of the discharging guide rail (92) close to one end of the clamping chuck (2) is larger than that of the discharging guide rail (92) away from one end of the clamping chuck (2).