CN220050057U - Material feeding unit for numerical control lathe - Google Patents

Abstract

The utility model relates to the technical field of numerically controlled lathes, and provides a feeding device for a numerically controlled lathe, which comprises a mounting frame, wherein the mounting frame comprises a dislocation slide piece, the left end and the right end of the mounting frame are provided with first sliding frames which are matched with each other, the inner upper side wall of each first sliding frame is provided with a first rack, two first movable plates which are matched with each other are connected in a sliding manner in the two first sliding frames, the right ends of the two first movable plates penetrate through the first sliding frames and are fixedly connected with a first mounting plate, the top end of the first mounting plate is provided with a first motor, the output end of the first motor is fixedly connected with a first rotating shaft, the first rotating shaft is fixedly connected with two first gears which are matched with the first racks, the front end and the rear end of the mounting frame are provided with second sliding frames which are matched with each other, and the positions of the second sliding frames are staggered with each other, and the two second movable plates which are matched with each other are connected in a sliding manner in the two second sliding frames, so that the purpose of improving the flexibility of equipment is achieved.

Description

Material feeding unit for numerical control lathe

Technical Field

The utility model relates to the technical field of numerically controlled lathes, in particular to a feeding device for a numerically controlled lathe.

Background

The numerical control lathe is one of the numerical control lathes which are widely used at present. The device is mainly used for cutting processing of inner and outer cylindrical surfaces of shaft parts or disc parts, inner and outer conical surfaces of any cone angle, complex rotation inner and outer curved surfaces, cylindrical threads, conical threads and the like, grooving, drilling, reaming, boring and the like, wherein in the processing process of a numerical control lathe, a feeding device is often required to feed the numerical control lathe.

Through the search, 5 months of China 27 discloses a material feeding unit for numerical control lathe that patent publication number is CN216608185U, and it roughly describes, including gripper body and base, two recesses have been seted up at the top of base, all rotate on the inner wall of both sides in the recess and be provided with adjusting screw, the one end of two adjusting screw is all fixed to be provided with the drive sprocket, the same drive chain of transmission installation on two drive sprockets.

The prior art scheme is convenient for adjusting the interval between the feeding device and the numerical control lathe, but the equipment can only be transversely adjusted, cannot be longitudinally adjusted and has insufficient flexibility.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a feeding device for a numerical control lathe, which aims to solve the problems that the feeding device can only carry out transverse adjustment, cannot carry out longitudinal adjustment and has insufficient flexibility in the prior art.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a material feeding unit for numerical control lathe, includes the installing frame, including dislocation slider, the first sliding frame that mutually supports has been seted up to the left end and the right-hand member of installing frame, the interior upper side wall of first sliding frame is equipped with first rack, two sliding connection has two first fly leaves mutually supports in the first sliding frame, the right-hand member of two first fly leaves runs through first sliding frame fixedly connected with first mounting panel, first motor is installed on the top of first mounting panel, the first rotating shaft of output fixedly connected with of first motor, fixedly connected with two first gears with first rack matched with on the first rotating shaft, the second sliding frame that mutually supports has been seted up to the front end and the rear end of installing frame, the second sliding frame staggers with the position of first sliding frame each other, two sliding connection has two second fly leaves mutually supports in the second sliding frame, the right-hand member of two second fly leaves runs through second sliding frame fixedly connected with second mounting panel, the top of second mounting panel has the second motor, the output fixedly connected with first rotating shaft of second motor has second rotating shaft and first rack matched with first rotating shaft, second rotating shaft and second movable jaw fixedly connected with second moving jaw simultaneously.

Through adopting above-mentioned technical scheme, start first motor and drive first axis of rotation and first gear rotation, first gear cooperatees with first rack for drive first fly leaf and carry out longitudinal movement, first fly leaf drives dislocation slider and gripper body longitudinal movement, start second motor and drive second axis of rotation and second gear rotation, the second gear cooperatees with the second rack, be used for driving the second fly leaf and carry out lateral shifting, the second fly leaf drives dislocation slider and gripper body lateral shifting, thereby make equipment can carry out horizontal and longitudinal regulation simultaneously, thereby reach the purpose that improves equipment flexibility.

Optionally, the dislocation slider is close to and has all offered a plurality of ball grooves on the inside wall of first fly leaf and second fly leaf, and the inside rotation in ball groove is connected with the ball, and first fly leaf or second fly leaf are hugged closely to the one end of ball.

Through adopting above-mentioned technical scheme, the ball groove cooperatees with the ball for reduce the frictional force between dislocation slider and first fly leaf, the second fly leaf, with this smoothness nature that improves equipment operation.

Optionally, the left end fixedly connected with of installing frame is with first last support piece that cooperatees with first axis of rotation, the rear end fixedly connected with of installing frame is with second support piece that cooperatees with the second axis of rotation.

Through adopting above-mentioned technical scheme, first support piece and first axis of rotation cooperatees for make the first gear that keeps away from first motor can hug closely first rack, second support piece and second axis of rotation cooperate, be used for making the second gear that keeps away from the second motor can hug closely the second rack, with this purpose that reaches improvement equipment stability.

Optionally, the first fly leaf and the second fly leaf are located the inside position of first slip frame and second slip frame and all fixedly connected with minor axis, rotate on the minor axis and be connected with the rotary drum, the position that the minor axis is close to rotary drum both ends fixedly connected with stopper.

Through adopting above-mentioned technical scheme, the minor axis cooperatees with a rotation section of thick bamboo for reduce the frictional force between first fly leaf, second fly leaf and the installing frame, with this purpose that reaches the smoothness nature that improves equipment operation, the stopper is used for spacing a rotation section of thick bamboo, reduces the probability that a rotation section of thick bamboo drops and inclines.

Optionally, the four corners position of dislocation slider's bottom is all fixedly connected with supporting leg, and the bottom fixedly connected with universal wheel of supporting leg.

Through adopting above-mentioned technical scheme, supporting leg and universal wheel cooperate for support dislocation slider and mechanical grabbing body, reduce the pressure of first fly leaf and second fly leaf, with this purpose that reaches improvement equipment stability.

(III) beneficial effects

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

1. this material feeding unit for numerical control lathe starts first motor and drives first axis of rotation and first gear rotation, first gear cooperatees with first rack for drive first fly leaf and carry out longitudinal movement, first fly leaf drives dislocation slider and gripper body longitudinal movement, start second motor and drive second axis of rotation and second gear rotation, the second gear cooperatees with the second rack, be used for driving the second fly leaf and carry out lateral shifting, the second fly leaf drives dislocation slider and gripper body lateral shifting, thereby make equipment can carry out horizontal and longitudinal regulation simultaneously, thereby reach the purpose that improves equipment flexibility.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic view of a partial enlarged structure of the present utility model at A in FIG. 1;

FIG. 3 is a schematic top view of the present utility model;

FIG. 4 is a schematic view of a partial enlarged structure at B in FIG. 3 according to the present utility model;

FIG. 5 is a schematic view of a partially enlarged structure of the present utility model at C in FIG. 3;

fig. 6 is a schematic diagram of the front view structure of the present utility model.

In the figure: 1. a mounting frame; 2. a dislocating slide; 3. a first movable plate; 4. a first mounting plate; 5. a first motor; 6. a first rotation shaft; 7. a first gear; 8. a second movable plate; 9. a second mounting plate; 10. a second motor; 11. a second rotation shaft; 12. a second gear; 13. a gripper body; 14. a ball; 15. a first upper support; 16. a second upper support; 17. a rotating cylinder; 18. a limiter; 19. support legs; 20. and a universal wheel.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model is described in further detail below with reference to the drawings.

Referring to fig. 1-6, a feeding device for a numerically controlled lathe comprises a mounting frame 1, wherein the mounting frame comprises a dislocation slide piece 2, the left end and the right end of the mounting frame 1 are provided with first sliding frames matched with each other, the inner upper side wall of each first sliding frame is provided with a first rack, two first movable plates 3 matched with each other are connected in a sliding manner in the two first sliding frames, the right ends of the two first movable plates 3 penetrate through the first sliding frames and are fixedly connected with a first mounting plate 4, the top end of the first mounting plate 4 is provided with a first motor 5, the output end of the first motor 5 is fixedly connected with a first rotating shaft 6, the first rotating shaft 6 is fixedly connected with two first gears 7 matched with the first racks, the first motor 5 is started to drive the first rotating shaft 6 and the first gears 7 to rotate, the first gears 7 are matched with the first racks and are used for driving the first movable plates 3 to longitudinally move, the first movable plate 3 drives the dislocation slide 2 and the mechanical claw body 13 to longitudinally move, the front end and the rear end of the installation frame 1 are provided with second sliding frames matched with each other, the positions of the second sliding frames and the first sliding frames are staggered with each other, two second movable plates 8 matched with each other are connected in the two second sliding frames in a sliding way, the right ends of the two second movable plates 8 penetrate through the second sliding frames and are fixedly connected with the second installation plate 9, the top end of the second installation plate 9 is provided with a second motor 10, the output end of the second motor 10 is fixedly connected with a second rotation shaft 11, the second rotation shaft 11 is fixedly connected with two second gears 12 matched with second racks, the dislocation slide 2 is simultaneously connected with the first movable plate 3 and the second movable plate 8 in a sliding way, the top end of the dislocation slide 2 is fixedly connected with the mechanical claw body 13, the second motor 10 is started to drive the second rotation shaft 11 and the second gears 12 to rotate, the second gear 12 is matched with the second rack and is used for driving the second movable plate 8 to transversely move, and the second movable plate 8 drives the dislocation slide piece 2 and the mechanical claw body 13 to transversely move, so that the equipment can be transversely and longitudinally adjusted at the same time, and the purpose of improving the flexibility of the equipment is achieved.

Referring to fig. 1 and 2, a plurality of ball grooves are formed in the inner side walls, close to the first movable plate 3 and the second movable plate 8, of the dislocation slide 2, balls 14 are rotatably connected in the ball grooves, one ends of the balls 14 are tightly attached to the first movable plate 3 or the second movable plate 8, the ball grooves are matched with the balls 14, and friction force between the dislocation slide 2 and the first movable plate 3 and friction force between the dislocation slide 2 and the second movable plate 8 are reduced, so that smoothness of operation of equipment is improved.

Referring to fig. 1-6, a first upper supporting member 15 matched with the first rotating shaft 6 is fixedly connected to the left end of the mounting frame 1, the first upper supporting member 15 is matched with the first rotating shaft 6 and used for enabling the first gear 7 far away from the first motor 5 to be clung to a first rack, a second upper supporting member 16 matched with the second rotating shaft 11 is fixedly connected to the rear end of the mounting frame 1, and the second upper supporting member 16 is matched with the second rotating shaft 11 and used for enabling the second gear 12 far away from the second motor 10 to be clung to a second rack, so that the purpose of improving equipment stability is achieved.

Referring to fig. 1-5, the first movable plate 3 and the second movable plate 8 are located in the first sliding frame and the second sliding frame, and are fixedly connected with a short shaft, a rotating cylinder 17 is rotatably connected to the short shaft, the short shaft is matched with the rotating cylinder 17 and used for reducing friction force between the first movable plate 3, the second movable plate 8 and the mounting frame 1, so that the purpose of improving the running smoothness of equipment is achieved, the position, close to two ends of the rotating cylinder 17, of the short shaft is fixedly connected with a limiter 18, and the limiter 18 is used for limiting the rotating cylinder 17 and reducing the falling and deflection probability of the rotating cylinder 17.

Referring to fig. 1 and 2, four corners of the bottom end of the dislocation slide 2 are fixedly connected with supporting legs 19, the bottom ends of the supporting legs 19 are fixedly connected with universal wheels 20, the supporting legs 19 are matched with the universal wheels 20 and are used for supporting the dislocation slide 2 and the mechanical grabbing body, and the pressure of the first movable plate 3 and the second movable plate 8 is reduced, so that the purpose of improving the stability of equipment is achieved.

In summary, the working principle and working process of the feeding device for the numerically controlled lathe are that when the feeding device is used, the first motor 5 is started to drive the first rotating shaft 6 and the first gear 7 to rotate, the first gear 7 is matched with the first rack for driving the first movable plate 3 to longitudinally move, the first movable plate 3 drives the misplacement slide 2 and the mechanical claw body 13 to longitudinally move, the second motor 10 is started to drive the second rotating shaft 11 and the second gear 12 to rotate, the second gear 12 is matched with the second rack for driving the second movable plate 8 to transversely move, the second movable plate 8 drives the misplacement slide 2 and the mechanical claw body 13 to transversely move, so that the equipment can be transversely and longitudinally adjusted at the same time, the aim of improving the flexibility of the equipment is achieved, the spherical grooves are matched with the balls 14 for reducing friction force between the misplacement slide 2 and the first movable plate 3 and the second movable plate 8, the first upper supporting piece 15 is matched with the first rotating shaft 6, so that the first gear 7 far away from the first motor 5 can be clung to the first rack, the second upper supporting piece 16 is matched with the second rotating shaft 11, the second gear 12 far away from the second motor 10 can be clung to the second rack, the purpose of improving equipment stability is achieved, the short shaft is matched with the rotating cylinder 17, the friction force between the first movable plate 3, the second movable plate 8 and the mounting frame 1 is reduced, the purpose of improving equipment operation smoothness is achieved, the limiter 18 is used for limiting the rotating cylinder 17, the falling and deflection probability of the rotating cylinder 17 is reduced, the supporting legs 19 and the universal wheels 20 are matched, the misplacement slider 2 and the mechanical grabbing body are supported, the pressure of the first movable plate 3 and the second movable plate 8 is reduced, thereby achieving the purpose of improving the stability of the equipment.

The foregoing examples merely illustrate specific embodiments of the utility model, which are described in greater detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model.

Claims (6)

1. The utility model provides a material feeding unit for numerical control lathe, includes installing frame (1), its characterized in that: the device comprises a staggered sliding piece (2), a first sliding frame matched with each other is arranged at the left end and the right end of a mounting frame (1), a first rack is arranged on the inner upper side wall of the first sliding frame, two first movable plates (3) matched with each other are connected in a sliding manner in the first sliding frame, the right ends of the two first movable plates (3) penetrate through the first sliding frame and are fixedly connected with a first mounting plate (4), a first motor (5) is mounted at the top end of the first mounting plate (4), a first rotating shaft (6) is fixedly connected with the output end of the first motor (5), two first gears (7) matched with the first rack are fixedly connected on the first rotating shaft (6), second sliding frames matched with each other are arranged at the front end and the rear end of the mounting frame (1), the positions of the second sliding frames are staggered with each other, two second movable plates (8) matched with each other are connected in a sliding manner in the second sliding frames, the right ends of the two second movable plates (8) penetrate through the second motor (9), the second rotating shaft (10) is fixedly connected with the second rotating shaft (11) and the second rotating shaft (11) is fixedly connected with the second mounting plate (11), the top end of the dislocation slide piece (2) is fixedly connected with a mechanical claw body (13).

2. The feeding device for a numerical control lathe according to claim 1, wherein: the dislocation slider (2) is close to and has all offered a plurality of ball grooves on the inside wall of first fly leaf (3) and second fly leaf (8), and the inside in ball groove rotates and is connected with ball (14), and first fly leaf (3) or second fly leaf (8) are hugged closely to one end of ball (14).

3. The feeding device for a numerical control lathe according to claim 1, wherein: the left end fixedly connected with of installing frame (1) is with first support piece (15) that holds in the palm piece (6) matched with first axis of rotation, the rear end fixedly connected with of installing frame (1) holds in the palm piece (16) with second axis of rotation (11) matched with second.

4. The feeding device for a numerical control lathe according to claim 1, wherein: the first movable plate (3) and the second movable plate (8) are positioned inside the first sliding frame and the second sliding frame and are fixedly connected with short shafts, and rotating cylinders (17) are rotatably connected to the short shafts.

5. The feeding device for a numerical control lathe according to claim 4, wherein: and the positions of the short shaft, which are close to the two ends of the rotating cylinder (17), are fixedly connected with limiters (18).

6. The feeding device for a numerical control lathe according to claim 1, wherein: the four corners of the bottom of dislocation slider (2) are all fixedly connected with supporting leg (19), and the bottom fixedly connected with universal wheel (20) of supporting leg (19).