CN219945408U - Automatic unloader of five machining centers - Google Patents

Abstract

The utility model discloses an automatic blanking device of a five-axis machining center, which comprises a frame, wherein two conveying belts are arranged in the middle of the frame, a filtering frame is arranged between the two conveying belts, a clamping block is arranged above the conveying belts, a rotating shaft II is arranged on the left side of the clamping block, a motor II is arranged on the left side of the rotating shaft II, a hydraulic rod is arranged on the right side of the clamping block, a rotating shaft I is arranged in the frame, a gear is arranged on the rotating shaft I, a telescopic rod is arranged behind the gear, a workpiece is conveyed by the left conveying belt for machining, the workpiece and scraps produced by machining are conveyed to the filtering frame together, the scraps are filtered by the filtering frame, and the workpiece is conveyed and blanked by the right conveying belt, so that the effects of conveniently cleaning the scraps and conveniently blanking are achieved.

Description

Automatic unloader of five machining centers

Technical Field

The utility model relates to a five-axis machining center in the technical field of workpiece machining, in particular to an automatic blanking device of the five-axis machining center.

Background

The utility model relates to a five-axis machining center for machining workpieces, which is characterized in that the traditional nonmetallic machining is manually operated by a single tool, various complete equipment is provided along with the increase of nonmetallic machining operations and the increase of machining precision requirements, such as machine tool equipment in the fields of glass machining industry, case cutting industry, wood machining and the like, the machining modes of the equipment are increased, and the machining precision and the working efficiency are greatly improved.

Through retrieval, the prior Chinese patent publication No. CN201420693235.9 is an automatic blanking device of a five-axis machining center, which comprises a platform device, a table column base arranged on one side of the platform device, a table column arranged on the table column base, a cross beam horizontally arranged above the platform device and a control device; the platform device comprises a platform base, a Y-axis horizontal guide rail arranged on the platform base and a bedplate movably arranged on the Y-axis horizontal guide rail; one end of the cross beam is fixedly arranged on the table post, the other end of the cross beam is suspended, a plurality of groups of X-axis guide rails are arranged on the cross beam, a Z-axis support is movably arranged on the X-axis guide rails, and a plurality of groups of Z-axis guide rails are arranged on the vertical direction of the front end face of the Z-axis support. The five-axis machining center is improved in advancing device, double in station and high in accuracy, a five-axis mode is adopted, the five-axis machining center can be suitable for forming nonmetallic products in special directions, and the equipment is high in work efficiency.

Although the above-mentioned patent has realized improving five machining center's processing rate and advance the effect of accuracy, but above-mentioned patent can produce a large amount of piece when processing the work piece, inconvenient clearance piece and ejection of compact, can't form effectual assembly line, has influenced the processing rate greatly.

Aiming at the problems, the novel design is carried out on the basis of the original five-axis machining center.

Disclosure of Invention

The utility model aims to provide an automatic blanking device of a five-axis machining center, which solves the problems that the five-axis machining center in the prior market is inconvenient to clean scraps and discharge and inconvenient to adjust the angle of a workpiece.

In order to achieve the above purpose, the utility model provides the automatic blanking device of the five-axis machining center, which comprises a frame, wherein preferably, two conveyor belts are arranged in the middle of the frame, a filter frame is arranged in the middle of the two conveyor belts, a clamping block is arranged above the conveyor belts, a rotating shaft II is arranged on the left side of the clamping block, a motor II is arranged on the left side of the rotating shaft II, a hydraulic rod is arranged on the right side of the clamping block, a rotating shaft I is arranged in the frame, a gear is arranged on the rotating shaft I, and a telescopic rod is arranged behind the gear.

Preferably, the frame comprises a frame I and a frame II, wherein the frame II is connected with the frame I, the middle of the frame I is connected with the conveyor belt, and the two sides of the frame I are connected with the motor I.

Preferably, the telescopic rod comprises a vertical rod and a rack, the vertical rod is arranged in the sliding groove and slides up and down in the sliding groove, the upper end of the vertical rod is connected with the second frame, and the vertical rod is connected with the rack.

Preferably, the first rotating shaft is connected with the gear, the gear is clamped with the connecting rack, the gear rotates on the rack, the first rotating shaft is connected with the first rack at two ends, the first rotating shaft rotates in the first rack, and the left end of the first rotating shaft penetrates through the first rack to be connected with the first motor.

Preferably, the clamping blocks comprise right clamping blocks and left clamping blocks, the right clamping blocks and the left clamping blocks are uniformly connected with tooth blocks, the right side of each right clamping block is connected with a hydraulic rod, the hydraulic rods are connected with a second right frame through bearings, the hydraulic rods rotate on the second frame, the left side of each left clamping block is connected with a second rotating shaft, the second rotating shaft is connected with the second left frame through bearings, the second rotating shaft rotates on the second frame, and the left end of the second rotating shaft penetrates through the second frame to be connected with the second motor.

Preferably, the filter frame comprises a frame and a partition board, wherein the partition board is connected in the middle of the upper edge of the frame at equal intervals, the partition board is arranged in a triangular modeling structure, and two ends of the frame are connected with the first frame.

Compared with the prior art, the utility model has the beneficial effects that: the chipping and discharging are convenient to clean, and the angle of the workpiece is convenient to adjust freely;

1. the motor rotates to drive the first rotation of rotating shaft, and then drives the gear to rotate on the rack, and the rack is connected the montant, and the gear rotates to drive the montant and reciprocate in frame one, and then drives frame two and reciprocate, and motor two rotates and drives the second rotation of rotating shaft, and the second rotation of rotating shaft drives the clamp splice and rotates and then drive clamp splice middle clamp fixed work piece and rotate, reaches the effect of pressing from both sides tightly fixedly to not equidimension work piece to the free adjustment work piece angle.

2. The left conveying belt conveys the workpiece to process, the workpiece and scraps produced by processing can be conveyed onto the filtering frame, the filtering frame can filter the scraps, the workpiece can be conveyed and discharged by the right conveying belt, and the effects of conveniently cleaning the scraps and conveniently discharging are achieved.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of the filter frame of the present utility model;

fig. 4 is an enlarged schematic view of the telescopic rod according to the present utility model.

In the figure: 1. a frame; 101. a first frame; 102. a second frame; 2. a chute; 3. a conveyor belt; 4. a telescopic rod; 401. a vertical rod; 402. a rack; 5. a gear; 6. a first rotating shaft; 7. a first motor; 8. a second rotating shaft; 9. a second motor; 10. clamping blocks; 1001. a right clamp block; 1002. a left clamp block; 11. a hydraulic rod; 12. tooth blocks; 13. a filter frame; 1301. a frame; 1302. a partition board.

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.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides an automatic unloader of five machining centers, includes frame 1, be equipped with two conveyer belts 3 in the middle of the frame 1, and be equipped with filter stand 13 in the middle of two conveyer belts 3, the conveyer belt 3 top is equipped with clamp splice 10, and the clamp splice 10 left side is equipped with pivot two 8 to be equipped with motor two 9 on the left of the pivot two 8, the clamp splice 10 right is equipped with hydraulic stem 11, be equipped with pivot one 6 in the frame 1, and be equipped with gear 5 on the pivot one 6 to be equipped with telescopic link 4 behind the gear 5.

The machine frame 1 comprises a first machine frame 101 and a second machine frame 102, the second machine frame 102 is connected with the upper surface of the first machine frame 101, the middle of the first machine frame 101 is connected with the conveying belt 3, two sides of the first machine frame 101 are connected with the first motor 7, and the conveying belt 3 can carry out pipeline transportation on workpieces.

The telescopic rod 4 comprises a vertical rod 401 and a rack 402, the vertical rod 401 is arranged in the chute 2, the vertical rod 401 slides up and down in the chute 2, the upper end of the vertical rod 401 is connected with the second rack 102, the vertical rod 401 is connected with the rack 402, and the vertical rod 401 moves up and down to drive the second rack 102 to move up and down.

The first rotating shaft 6 is connected with the gear 5, the gear 5 is clamped and connected with the rack 402, the gear 5 rotates on the rack 402, two ends of the first rotating shaft 6 are connected with the first rack 101, the first rotating shaft 6 rotates in the first rack 101, the left end of the first rotating shaft 6 penetrates through the first rack 101 to be connected with the first motor 7, and the first motor 7 rotates to drive the first rotating shaft 6 to rotate.

The clamping block 10 comprises a right clamping block 1001 and a left clamping block 1002, wherein the right clamping block 1001 and the left clamping block 1002 are uniformly connected with a tooth block 12, the right side of the right clamping block 1001 is connected with a hydraulic rod 11, the hydraulic rod 11 is connected with a right frame II 102 through a bearing, the hydraulic rod 11 rotates on the frame II 102, the left side of the left clamping block 1002 is connected with a rotating shaft II 8, the rotating shaft II 8 is connected with the left frame II 102 through a bearing, the rotating shaft II 8 rotates on the frame II 102, the left end of the rotating shaft II 8 penetrates through the frame II 102 to be connected with a motor II 9, and the motor II 9 drives the rotating shaft II 8 to rotate.

The filter frame 13 comprises a frame 1301 and a partition plate 1302, the partition plate 1302 is connected in the middle of the upper edge of the frame 1301 at equal intervals, the partition plate 1302 is arranged in a triangular modeling structure, two ends of the frame 1301 are connected with the first frame 101, and the filter frame 13 can filter scraps.

Working principle: when using this automatic unloader of five machining centers, install five machining centers earlier, hydraulic rod 11 flexible drive right clamp splice 1001 moves about, press from both sides tightly fixedly to the work piece, motor one 7 rotates and drives pivot one 6 and rotate in frame one 101, pivot one 6 connects gear 5, pivot one 6 rotates and drives gear 5 and rotate, gear 5 block connection rack 402, gear 5 rotates and drives rack 402 and reciprocate, rack 402 connects montant 401, rack 402 reciprocates and drives montant 401 and reciprocates, frame two 102 are connected to montant 401 upper end, the montant 401 reciprocates and drives frame two 102 and reciprocates, frame two 102 connects pivot two 8 and hydraulic rod 11, left clamp splice 1002 is connected to pivot two 8 right-hand member, right clamp splice 1001 is connected with tooth piece 12 on hydraulic rod 11 left end connection right clamp splice 1001, all be connected with tooth piece 12 on right clamp splice 1001 and the left clamp splice 1002, frame two 102 reciprocates and drives clamp splice 10 and reciprocate, press from both sides tightly fixedly to the work piece of different sizes, pivot two 8 and frame two 102 pass through the bearing connection, motor two 9 rotate and drive pivot two 8 rotate, left clamp splice 8 and drive work piece 1302, and carry out the clearance through the left and can be realized by the clearance of left and can be realized, and the clearance is realized by the clearance of work piece 1302, and the clearance is realized by the convenient piece is rotated through the left side of left clamp splice 1302, and is convenient to the clearance.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides an automatic unloader of five machining centers, includes frame (1), its characterized in that: be equipped with two conveyer belts (3) in the middle of frame (1), and be equipped with filter stand (13) in the middle of two conveyer belts (3), conveyer belt (3) top is equipped with clamp splice (10), and clamp splice (10) left side is equipped with pivot two (8) to pivot two (8) left side is equipped with motor two (9), clamp splice (10) right is equipped with hydraulic stem (11), be equipped with pivot one (6) in frame (1), and be equipped with gear (5) on pivot one (6) to be equipped with telescopic link (4) behind gear (5).

2. The automatic blanking device of a five-axis machining center according to claim 1, wherein: the machine frame (1) comprises a first machine frame (101) and a second machine frame (102), wherein the second machine frame (102) is connected with the first machine frame (101), the middle of the first machine frame (101) is connected with the conveying belt (3), and two sides of the first machine frame (101) are connected with the first motor (7).

3. The automatic blanking device of a five-axis machining center according to claim 1, wherein: the telescopic rod (4) comprises a vertical rod (401) and a rack (402), the vertical rod (401) is arranged in the sliding groove (2), the vertical rod (401) slides up and down in the sliding groove (2), the upper end of the vertical rod (401) is connected with the second rack (102), and the vertical rod (401) is connected with the rack (402).

4. The automatic blanking device of a five-axis machining center according to claim 1, wherein: the first rotating shaft (6) is connected with the gear (5), the gear (5) is clamped and connected with the rack (402), the gear (5) rotates on the rack (402), two ends of the first rotating shaft (6) are connected with the first rack (101), the first rotating shaft (6) rotates in the first rack (101), and the left end of the first rotating shaft (6) penetrates through the first rack (101) to be connected with the first motor (7).

5. The automatic blanking device of a five-axis machining center according to claim 1, wherein: the clamping block (10) comprises a right clamping block (1001) and a left clamping block (1002), wherein the right clamping block (1001) and the left clamping block (1002) are uniformly connected with a tooth block (12), the right side of the right clamping block (1001) is connected with a hydraulic rod (11), the hydraulic rod (11) is connected with a right frame II (102) through a bearing, the hydraulic rod (11) rotates on the frame II (102), the left side of the left clamping block (1002) is connected with a rotating shaft II (8), the rotating shaft II (8) is connected with a left frame II (102) through a bearing, the rotating shaft II (8) rotates on the frame II (102), and the left end of the rotating shaft II (8) penetrates through the frame II (102) to be connected with a motor II (9).

6. The automatic blanking device of a five-axis machining center according to claim 1, wherein: the filter frame (13) comprises a frame (1301) and a partition plate (1302), wherein the partition plate (1302) is connected in the middle of the upper edge of the frame (1301) at equal intervals, the partition plate (1302) is arranged in a triangular modeling structure, and two ends of the frame (1301) are connected with the first frame (101).