CN112828687A

CN112828687A - A multiaspect quick change workstation for turn-milling machining center

Info

Publication number: CN112828687A
Application number: CN202011561231.1A
Authority: CN
Inventors: 苏小龙; 刘亚; 钱卫中; 王磊; 谢玮; 唐帅帅
Original assignee: Beijing Power Machinery Institute
Current assignee: Beijing Power Machinery Institute
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-05-25

Abstract

The invention discloses a multi-surface quick-change workbench for a turning and milling machining center, which comprises: the circular connecting flange, the mother board and the daughter boards; the two circular connecting flanges are coaxially arranged and are respectively and coaxially connected with a main shaft and a tailstock of a turning and milling center; more than three mother boards are arranged between the two circular connecting flanges along the circumferential direction, and more than one daughter board is arranged on each mother board and used for installing a workpiece at a set position of each mother board; the main shaft of the turning and milling center drives more than three mother boards to be quickly replaced.

Description

A multiaspect quick change workstation for turn-milling machining center

Technical Field

The invention relates to the technical field of milling quick-change tools of five-axis turning and milling machine tools, in particular to a multi-surface quick-change workbench for a turning and milling machining center.

Background

The length of a large batch of small parts (equipment) during processing can not be realized by clamping and processing a plurality of parts at one time in actual processing, and the tool changing times of a machine tool is large in the processing process.

For large-batch small parts, a machining mode in the prior art is to utilize a small machining center to machine a single part, the size of a working area is limited by the structural size of the small part, the single small part is machined on the small machining center of 400 x 400 as an example, the occupancy rate of the single small part to a workbench of the small machining center is sixty percent, the small part is low in utilization rate of the workbench of the small machining center, and the single small part needs to call different cutters at high frequency to machine according to different machining contents, so that the tool changing and machining duration of the single small part is increased, the effective operation duration of the machine tool per day is shortened, the abrasion of the machine tool is influenced, and the service life of the machine tool is shortened.

Disclosure of Invention

In view of the above, the present invention provides a multi-surface quick-change workbench for a turning and milling center, which has a plurality of mother boards as a working table surface, and under the driving of a spindle of the turning and milling center, the plurality of mother boards are switched with each other, so that a large number of workpieces with single size and long length during single piece processing can be clamped, a plurality of workpieces can be clamped at one time for processing, and a plurality of different workpieces can be clamped at the same time for processing.

The technical scheme of the invention is as follows: a multi-faceted quick change table for a turn-milling machining center, comprising: the circular connecting flange, the mother board and the daughter boards; the two circular connecting flanges are coaxially arranged and are respectively and coaxially connected with a main shaft and a tailstock of a turning and milling center; more than three mother boards are arranged between the two circular connecting flanges along the circumferential direction, and more than one daughter board is arranged on each mother board and used for installing a workpiece at a set position of each mother board; the main shaft of the turning and milling center drives more than three mother boards to be quickly replaced.

Preferably, the method further comprises the following steps: a motherboard reinforcing rib; and more than one motherboard reinforcing rib is arranged between the two circular connecting flanges and used for circumferentially reinforcing more than three motherboards.

Preferably, the motherboard reinforcing rib is a regular triangle plate, and lightening holes II are respectively arranged at positions corresponding to all corners of the motherboard reinforcing rib.

Preferably, the two opposite end faces of the circular connecting flanges are respectively provided with a regular triangle protrusion, the end face of the circular connecting flange corresponding to each side of each regular triangle protrusion is provided with more than two nail penetrating holes I which are used for corresponding to screw holes II arranged on the end faces of the two ends of the mother board, and thus the two ends of each mother board are respectively fastened with the two circular connecting flanges through screws.

Preferably, the motherboard is a 1200 x 300mm rectangular plate; a positioning pin hole I is formed in the center of each side face of each regular triangle protrusion, positioning pin holes II are formed in the middle of the two ends of each mother board in the length direction in the width direction, the positioning pins sequentially penetrate through the positioning pin holes II and the positioning pin holes I, and the two ends of the three mother boards are positioned on each side face of each regular triangle protrusion of the two circular connecting flanges.

Preferably, two sides of a positioning pin hole I of each side face of the regular triangle protrusion are respectively provided with a screw hole I corresponding to the screw hole I, two sides of a positioning pin hole II of each mother board are respectively provided with a through screw hole II, and screws sequentially penetrate through the through screw holes II and the screw holes I to respectively fasten two ends of each mother board to the corresponding side faces of the regular triangle protrusion of the two circular connecting flanges.

Preferably, more than two rows of nail penetrating holes II are formed in each mother board along the length direction, each row of nail penetrating holes II comprises two nail penetrating holes II, each row of nail penetrating holes II is used for corresponding to more than two screw holes III arranged on each side face of the mother board reinforcing rib, and screws sequentially penetrate through the nail penetrating holes II in the mother board and the screw holes III in the mother board reinforcing rib to connect the mother board reinforcing rib to the mother board.

Preferably, the daughter board is a rectangular board, the length of the daughter board is less than or equal to the width of the mother board, the daughter board is arranged on the mother board, one surface of the daughter board, which is opposite to the mother board, is a back surface, the back surface of the daughter board is provided with two T-shaped blocks along the length direction of the daughter board, each mother board is provided with more than two angular positioning key slots I and more than two T-shaped slots at intervals along the length direction, and the T-shaped blocks on the daughter board are in concave-convex fit with the T-shaped slots on the mother board, so that the; the position, corresponding to the T-shaped block, of the daughter board is provided with a nail penetrating hole III, the T-shaped block is correspondingly provided with a threaded hole, when the daughter board slides to a set position, the daughter board is preliminarily locked at the set position of the mother board through the nail penetrating hole III on the daughter board and the threaded hole on the T-shaped block sequentially by screws; each angular positioning key groove I is provided with a daughter board positioning hole corresponding to a pin hole arranged on the back of the daughter board, and a pin shaft sequentially penetrates through the daughter board positioning hole on the back of the mother board and the pin hole on the back of the daughter board from the back of the mother board to lock the daughter board on the mother board for the second time; the daughter board back is provided with an angular positioning key groove II which is matched with the angular positioning key groove I on the mother board, and the position of the daughter board on the mother board is limited and the daughter board is angularly positioned through the cuboid positioning key.

Preferably, the centers of the regular triangle bulges and the positions corresponding to the corners are respectively provided with a lightening hole I.

Preferably, the daughter board is further provided with a workpiece contour profiling hole, and the shape of the hole is the same as the shape of the workpiece.

Has the advantages that:

1. according to the multi-face quick-change workbench, the turning and milling machining center is fully utilized, more than three mother boards are designed for large-batch small parts, the mother boards are combined into one workbench which can be matched with the turning and milling machining center, the workbench capable of realizing quick change among more than three workbench faces (mother boards) can be realized by utilizing the angular indexing function of the main shaft of the turning and milling machining center, the workbench has the advantages of flexibility, rapidness, low cost and the like, the integral rigidity of the quick-change workbench can be enhanced, and the maximization of the working area of the quick-change workbench can be guaranteed; meanwhile, the multi-surface quick-change workbench is also suitable for machining small parts in small batches and a plurality of different small parts, the milling function of the turn-milling machining center is exerted to the maximum extent, and the equipment loss is reduced for the turn-milling machining center.

2. The reinforcing ribs of the motherboard mainly play a role in supporting the motherboard.

3. The design of the triangular motherboard reinforcing ribs can increase the rigidity of the whole quick-change workbench, so that the overall strength of the quick-change workbench can be effectively enhanced.

4. The circular connecting flange is specifically arranged for connecting the three mother boards into a triangular prism structure and is coaxially connected with a main shaft and a tailstock of a turning and milling center, the connecting flange is circular, and the two ends of the quick-change workbench are coaxial and coaxial with a rotating shaft of the turning and milling center in the whole process of connecting the quick-change workbench and the turning and milling center by fully utilizing a dial gauge mode.

5. The invention designs three 1200 x 300mm mother boards, the using area of a single mother board is equivalent to the working area of three 400 x 400 small machining center working tables, namely, after one turning and milling device applies the multi-surface quick-change working table, the capacity of more than nine small machining centers can be achieved in normal operation.

6. According to the invention, the daughter board and the mother board are arranged in a matched manner, so that workpieces with different sizes can be mounted at different positions on the mother board, and the workpieces can be rapidly processed.

7. The quick-change workbench is provided with the lightening holes I and the lightening holes II, so that the overall weight of the quick-change workbench can be effectively lightened, the bearing capacity of a turn-milling machining center is effectively reduced, and as large as possible weight increasing space is saved for the daughter board and the workpiece.

8. According to the invention, the daughter board is provided with the workpiece contour profiling hole, so that the daughter board can be well adapted to a specific workpiece.

Drawings

Fig. 1 is a schematic view of a quick-change workbench according to the present invention.

Fig. 2 is an exploded view of the quick-change workbench of the present invention.

Fig. 3 is a schematic structural view of a circular connecting flange according to the present invention, (1) a perspective view, and (2) a plan view.

Fig. 4 is a schematic structural diagram of the motherboard according to the present invention.

Fig. 5 is a schematic structural view of the motherboard reinforcing rib in the invention.

Fig. 6 is a schematic structural diagram of the daughter board of the present invention.

The novel connecting structure comprises a 1-round connecting flange, a 2-mother plate, a 3-mother plate reinforcing rib, 11-lightening holes I, 12-penetrating nail holes I, 13-positioning pin holes I, 14-screw holes I, 21-penetrating nail holes II, 22-screw holes II, 23-positioning pin holes II, 24-angular positioning key grooves I, 25-T-shaped grooves, 26-daughter plate positioning holes, 31-lightening holes II, 32-screw holes III, 41-penetrating nail holes III, 42-workpiece contour profiling holes and 43-angular positioning key grooves II.

Detailed Description

The invention is described in detail below by way of example with reference to the accompanying drawings.

The embodiment provides a multiaspect quick change workstation for turn-milling machining center, has a plurality of motherboards as table surface, under turn-milling machining center's spindle drive, switches over each other between a plurality of motherboards, can process the work piece of length to big batch clamping single and stick processing, realizes a plurality of work pieces of clamping and processes, and also can process by the work piece of a plurality of differences of clamping simultaneously.

As shown in fig. 1 and 2, the quick-change table includes: the structure comprises a circular connecting flange 1, a mother board 2, mother board reinforcing ribs 3 and daughter boards; as shown in fig. 3, a lightening hole I11, a through nail hole I12, a positioning pin hole I13 and a screw hole I14 are arranged on the circular connecting flange 1; as shown in fig. 4, a nail through hole ii 21, a screw hole ii 22, a positioning pin hole ii 23, an angular positioning key groove i 24, a T-shaped groove 25 and a daughter board positioning hole 26 are formed in the motherboard 2; as shown in fig. 5, the motherboard reinforcing rib 3 is provided with a lightening hole II 31 and a screw hole III 32; as shown in fig. 6, the daughter board is provided with a nail penetration hole iii 41, a workpiece contour profiling hole 42 and an angular positioning key groove ii.

The connection relationship of the quick-change workbench is as follows: the two circular connecting flanges 1 are coaxially arranged, counter bores are respectively arranged on the end faces opposite to each other, the two circular connecting flanges 1 are coaxially butted with a main shaft and a tailstock of a turning and milling center respectively, and more than one circle of threaded holes (each circle of threaded holes comprises more than three threaded holes uniformly distributed along the circumferential direction) are also arranged on the end faces of the two circular connecting flanges 1 and are used for fastening the main shaft and the circular connecting flanges 1 and the tailstock and the circular connecting flanges 1 through screws;

the opposite end surfaces of the two circular connecting flanges 1 are respectively provided with a regular polygon bulge, and the centers of the regular polygon bulges and the positions corresponding to all corners are respectively provided with lightening holes I11; more than three nail penetrating holes I12 are uniformly formed in a circle of lightening holes I11 surrounding the center on the regular polygon bulge and used for being connected with other parts through screws, more than two nail penetrating holes I12 are also formed in the end face of the circular connecting flange 1 corresponding to each edge of the regular polygon bulge and used for corresponding to screw holes II 22 formed in the end faces of the two ends of the mother board 2, and therefore the two ends of each mother board 2 are respectively fastened with the two circular connecting flanges 1 into a whole through screws; wherein, the motherboard 2 is a 1200 × 300mm rectangular plate;

a positioning pin hole I13 is formed in the center of each side face of the regular polygon bulge, a positioning pin hole II 23 is formed in the middle of each of the two ends of each mother board 2 in the length direction along the width direction, positioning pins sequentially penetrate through the positioning pin holes II 23 and the positioning pin holes I13, and the two ends of more than three mother boards 2 are positioned on each side face of the regular polygon bulge of the two circular connecting flanges 1; screw holes I14 are respectively formed in two sides of a positioning pin hole I13 of each side face of the regular polygon bulge along the width direction and correspond to the screw holes I14, screw penetrating holes II 21 are respectively formed in two sides of a positioning pin hole II 23 of each mother board 2 along the width direction, and screws sequentially penetrate through the screw penetrating holes II 21 and the screw holes I14 to respectively fasten two ends of each mother board 2 to the corresponding side faces of the regular polygon bulge of the two circular connecting flanges 1;

more than two rows of nail penetrating holes II 21 are further formed in each mother board 2 along the length direction (each row of nail penetrating holes II 21 comprises two nail penetrating holes II 21), each row of nail penetrating holes II 21 is used for corresponding to more than two screw holes III 32 formed in each side face of the mother board reinforcing rib 3, and screws sequentially penetrate through the nail penetrating holes II 21 in the mother board 2 and the screw holes III 32 in the mother board reinforcing rib 3, so that the stable connection between the mother board reinforcing rib 3 and the mother board 2 can be realized; more than three lightening holes II 31 are uniformly formed in each motherboard reinforcing rib 3 along the circumferential direction, and the weight of the quick-change workbench can be effectively reduced under the condition that the overall rigidity is not influenced by the lightening holes I11 and the lightening holes II 31;

the daughter boards are rectangular boards, the length of each daughter board is smaller than or equal to the width of the mother board 2, the daughter boards are attached to the mother board 2 and arranged on the mother board 2, one surface of each daughter board attached to the mother board 2 is a back surface, two T-shaped blocks along the length direction of each daughter board are arranged on the back surface of each daughter board, more than two angular positioning key grooves I24 and more than two T-shaped grooves 25 are uniformly arranged on each mother board 2 along the length direction at intervals, the T-shaped blocks on the daughter boards are in concave-convex fit with the T-shaped grooves 25 on the mother board 2, and therefore the daughter boards can; the position of the daughter board corresponding to the T-shaped block is provided with a through-nail hole III 41, the T-shaped block is correspondingly provided with a threaded hole, when the daughter board slides to a specific position, the daughter board is preliminarily locked at a set position of the mother board 2 by sequentially penetrating through the through-nail hole III 41 on the daughter board and the threaded hole on the T-shaped block through screws; each angular positioning key groove I24 is provided with a daughter board positioning hole 26 corresponding to a pin hole arranged on the back of a daughter board, and a pin shaft sequentially penetrates through the daughter board positioning hole 26 on the back of the mother board 2 and the pin hole on the back of the daughter board from the back of the mother board 2 to install the daughter board on the mother board 2, so that secondary locking is realized; the back of the daughter board is provided with an angular positioning key groove II 43 which is matched with the angular positioning key groove I24 on the mother board 2, and the position of the daughter board on the mother board 2 is limited and the daughter board is angularly positioned through a cuboid positioning key;

the daughter board is also provided with a workpiece contour profiling hole 42, the shape of which is the same as the workpiece contour, for mounting the workpiece on the daughter board.

In summary, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a multiaspect quick change workstation for turnning and milling machining center which characterized in that includes: the circular connecting flange (1), the mother board (2) and the daughter boards; the two circular connecting flanges (1) are coaxially arranged and are respectively and coaxially connected with a main shaft and a tailstock of a turning and milling machining center; more than three mother boards (2) are arranged between the two circular connecting flanges (1) along the circumferential direction, and more than one daughter board is arranged on the mother boards (2) and used for installing workpieces at set positions of the mother boards (2); the main shaft of the turning and milling center drives more than three mother boards (2) to be quickly replaced.

2. The multi-faceted quick change table for a turn-milling machining center as claimed in claim 1, further comprising: a motherboard reinforcing rib (3); more than one motherboard reinforcing rib (3) is arranged between the two circular connecting flanges (1) and used for circumferentially reinforcing the three motherboard (2).

3. The multi-facet quick-change workbench for a turning and milling machining center according to claim 2, characterized in that the motherboard reinforcing ribs (3) are regular triangular plates, and weight reduction holes II (31) are respectively arranged at the positions corresponding to the corners.

4. The multi-surface quick-change workbench for the turning and milling machining center according to claim 2, characterized in that two opposite end surfaces of the circular connecting flange (1) are respectively provided with a regular triangle protrusion, the end surface of the circular connecting flange (1) corresponding to each side of each regular triangle protrusion is provided with more than two nail penetration holes I (12) for corresponding to the screw holes II (22) arranged on the end surfaces of the two ends of the mother plate (2), so that the two ends of each mother plate (2) are respectively fastened with the two circular connecting flanges (1) through screws.

5. The multi-facet quick-change table for a turning and milling machining center according to claim 4, characterized in that the master plate (2) is a 1200 x 300mm rectangular plate; a positioning pin hole I (13) is formed in the center of each side face of each regular triangle protrusion, two ends of each mother board (2) in the length direction are respectively provided with a positioning pin hole II (23) along the middle of the width direction, the positioning pins sequentially penetrate through the positioning pin holes II (23) and the positioning pin holes I (13), and two ends of each mother board (2) are positioned on each side face of each regular triangle protrusion of the two circular connecting flanges (1).

6. The multi-surface quick-change workbench for the turning and milling machining center according to claim 5, characterized in that screw holes I (14) are respectively arranged on two sides of the positioning pin hole I (13) on each side surface of the regular triangle protrusion, corresponding to the screw holes I, screw through holes II (21) are respectively arranged on two sides of the positioning pin hole II (23) of each mother plate (2), and screws sequentially pass through the screw through holes II (21) and the screw holes I (14) to respectively fasten two ends of each mother plate (2) on the corresponding side surfaces of the regular triangle protrusion of the two circular connecting flanges (1).

7. The multi-surface quick-change workbench for the turning and milling machining center according to claim 5, wherein more than two rows of nail penetrating holes II (21) are arranged on each mother plate (2) along the length direction, each row of nail penetrating holes II (21) comprises two nail penetrating holes II (21), each row of nail penetrating holes II (21) is used for corresponding to more than two screw holes III (32) arranged on each side surface of the mother plate reinforcing rib (3), and screws sequentially penetrate through the nail penetrating holes II (21) on the mother plate (2) and the screw holes III (32) on the mother plate reinforcing rib (3) to connect the mother plate reinforcing rib (3) on the mother plate (2).

8. The multi-surface quick-change workbench for the turning and milling machining center according to claim 5, wherein the daughter board is a rectangular board, the length of the daughter board is less than or equal to the width of the mother board (2), the daughter board is arranged on the mother board (2), one surface of the daughter board opposite to the mother board (2) is a back surface, two T-shaped blocks along the length direction of the daughter board are arranged on the back surface of the daughter board, more than two angular positioning key grooves I (24) and more than two T-shaped grooves (25) are uniformly arranged on each mother board (2) along the length direction at intervals, the T-shaped blocks on the daughter board are matched with the T-shaped grooves (25) on the mother board (2) in a concave-convex mode, and the daughter board can slide on the mother board (; a nail through hole III (41) is formed in the position, corresponding to the T-shaped block, of the daughter board, a threaded hole is correspondingly formed in the T-shaped block, when the daughter board slides to a set position, a screw sequentially penetrates through the nail through hole III (41) in the daughter board and the threaded hole in the T-shaped block, and the daughter board is preliminarily locked at the set position of the mother board (2); each angular positioning key groove I (24) is provided with a daughter board positioning hole (26) corresponding to a pin hole formed in the back of the daughter board, and a pin shaft sequentially penetrates through the daughter board positioning hole (26) in the back of the mother board (2) and the pin hole in the back of the daughter board from the back of the mother board to lock the daughter board on the mother board (2) for the second time; the back of the daughter board is provided with an angular positioning key groove II (43) which is matched with an angular positioning key groove I (24) on the mother board (2), and the position of the daughter board on the mother board (2) is limited and the daughter board is angularly positioned through a cuboid positioning key.

9. The multi-facet quick-change workbench for a turning and milling machining center according to claim 2, wherein weight-reducing holes I (11) are respectively arranged at the centers of the regular triangular projections and the positions corresponding to the corners.

10. The multi-facet quick-change table for a turning and milling machining center according to claim 1, wherein the daughter board is further provided with a workpiece contour-shaped hole (42) having the same shape as the workpiece.