CN218927095U - Workpiece overturning device for lathe machining - Google Patents

Abstract

The utility model discloses a workpiece turnover device for lathe machining, which relates to the technical field of machining and comprises a first guide rail sliding seat mechanism, a rib plate, a second guide rail sliding seat mechanism and a lifting indexing mechanism, wherein the lifting indexing mechanism comprises a mounting plate, a first hydraulic telescopic rod and a second hydraulic telescopic rod. According to the design scheme, through the design of the guide rail sliding seat mechanism and the lifting indexing mechanism, the first electromagnetic suction block is driven to descend by the first hydraulic telescopic rod after single-sided machining is completed, the parts are adsorbed and ascended and turned to realize part overturning, the second electromagnetic suction block is driven to descend by the second hydraulic telescopic rod, the parts are adsorbed, the first electromagnetic suction block is demagnetized and ascended in an transposition mode, the second electromagnetic suction block continues to descend until the parts are placed on a machine tool workbench, automatic part overturning is realized in the whole process, overturning efficiency is effectively improved, overturning time is saved, and the whole machining efficiency is improved.

Description

Workpiece overturning device for lathe machining

Technical Field

The utility model relates to the technical field of machining, in particular to a workpiece overturning device for lathe machining.

Background

In the existing vertical numerical control lathe, in the processing process of ring plate type parts, the other single-sided feature is processed after the single-sided feature is processed, and particularly, for small-batch and multi-batch part processing, the loading, unloading and aligning are needed for many times, so that a large amount of processing time is occupied, and the processing efficiency is reduced.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a workpiece overturning device for lathe machining.

The technical scheme adopted for solving the technical problems is as follows: the workpiece turnover device for lathe processing comprises a first guide rail slide seat mechanism, a rib plate, a second guide rail slide seat mechanism and a lifting and indexing mechanism, wherein the lifting and indexing mechanism comprises a mounting plate, a first hydraulic telescopic rod, a second hydraulic telescopic rod, a fixed block, an indexing motor, an indexing speed reducer, a connecting flange shaft, an indexing shaft, a turnover mounting frame, a turnover motor, a turnover speed reducer, a turnover shaft, a first electromagnetic suction block and a second electromagnetic suction block, the second guide rail slide seat mechanism is rigidly mounted on the first guide rail slide seat mechanism through the rib plate, the first guide rail slide seat mechanism and the second guide rail slide seat mechanism are respectively formed by the guide rail slide seat mechanism, the second guide rail slide seat mechanism comprises 2 groups of guide rail slide seats, the lifting and indexing mechanism is respectively and symmetrically mounted on the 2 groups of guide rail slide seats of the second guide rail slide seat mechanism, the mounting plate is rigidly mounted on the guide rail slide seat of the second guide rail slide seat mechanism, the first hydraulic telescopic rod and the second hydraulic telescopic rod are symmetrically and rigidly mounted on the mounting plate in a left-right direction, the fixed block is rigidly mounted on the telescopic end of the first hydraulic telescopic rod, the indexing motor is rigidly mounted on the fixed block, the thrust motor is fixedly mounted on the sliding motor in the turnover shaft and the turnover motor in the movable shaft, the turnover speed reducer is fixedly mounted on the turnover shaft through the turnover shaft, the turnover speed reducer is fixedly mounted on the turnover shaft and the turnover mounting frame, and the turnover frame is fixedly mounted on the turnover frame by the movable shaft and the turnover speed reducer, and the movable support is mounted on the movable support through the movable shaft and the fixed support and the turnover frame, the first electromagnetic suction block is rigidly mounted on the turnover rotating shaft, and the second electromagnetic suction block is rigidly mounted at the telescopic end of the second hydraulic telescopic rod.

The workpiece overturning device for lathe machining comprises a guide rail, a slide seat, a rack, a gear shaft, a sliding speed reducer and a sliding motor, wherein the slide seat is matched with the guide rail, the rack is arranged on the lower end face of the guide rail, the gear is meshed with the rack, the gear is rigidly mounted on the gear shaft, the gear shaft is matched with the slide seat through a bearing, the gear shaft is rigidly mounted at the power output end of the sliding speed reducer, the sliding speed reducer is fixed on a sliding motor shell through a speed reducer bracket, the sliding motor is rigidly mounted on the slide seat through a motor bracket, and the mounting positions of the first electromagnetic suction block and the second electromagnetic suction block are corresponding.

The utility model has the beneficial effects that the design scheme of the utility model enables the annular plate parts to descend by the first hydraulic telescopic rod after single-sided processing is completed and to drive the first electromagnetic suction block to ascend and turn over to realize part turnover after the first hydraulic telescopic rod descends and adsorbs the parts, then the second hydraulic telescopic rod descends and drives the second electromagnetic suction block to descend and adsorb the parts, the first electromagnetic suction block ascends after demagnetizing and the second electromagnetic suction block continues to descend until the parts are placed on a machine tool workbench, the whole process realizes automatic turnover of the parts, effectively improves turnover efficiency, saves turnover time and is beneficial to improving the whole processing efficiency.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a front elevational view of the overall structure of the present utility model;

FIG. 2 is a side view of the overall mounting structure of the rail-carriage mechanism of the present utility model;

fig. 3 is a schematic view of the internal installation structure of the fixing block of the present utility model.

In the figure, 1, 2, 3, 4, 5, 6, 7, 8, gear shaft, 9, sliding speed reducer, 10, sliding motor, 11, mounting plate, 12, first hydraulic telescopic rod, 13, second hydraulic telescopic rod, 14, fixed block, 15, indexing motor, 16, indexing speed reducer, 17, connecting flange shaft, 18, indexing shaft, 19, turnover mounting frame, 20, turnover motor, 21, turnover speed reducer, 22, turnover shaft, 23, first electromagnetic suction block, 24 and second electromagnetic suction block.

Detailed Description

In order to more clearly illustrate the technical solution of the present utility model, it is obvious that the following description of the present utility model is provided by way of example only, and it is within the scope of the present utility model to one skilled in the art to obtain other embodiments according to the present utility model without inventive effort.

The workpiece turnover device for lathe processing comprises a first guide rail slide seat mechanism 1, a rib plate 2, a second guide rail slide seat mechanism 3 and a lifting and indexing mechanism, wherein the lifting and indexing mechanism comprises a mounting plate 11, a first hydraulic telescopic rod 12, a second hydraulic telescopic rod 13, a fixed block 14, an indexing motor 15, an indexing speed reducer 16, a connecting flange shaft 17, an indexing shaft 18, a turnover mounting frame 19, a turnover motor 20, a turnover speed reducer 21, a turnover shaft 22, a first electromagnetic suction block 23 and a second electromagnetic suction block 24, the second guide rail slide seat mechanism 3 is rigidly mounted on the first guide rail slide seat mechanism 1 through the rib plate 2, the first guide rail slide seat mechanism 1 and the second guide rail slide seat mechanism 3 are respectively formed by the guide rail slide seat mechanisms, the lifting and indexing mechanism comprises 2 groups of guide rail slide seats, the 2 groups of the lifting and indexing mechanism are symmetrically and rigidly mounted on the 2 groups of the guide rail slide seat mechanism 3, the mounting plate 11 is rigidly mounted on the guide rail slide seat of the second guide rail slide seat mechanism 3, the first hydraulic telescopic rod 12 and the second hydraulic telescopic rod 13 are rigidly mounted on the mounting plate 11, the turnover motor rigidly mounted on the thrust shaft 14 is fixedly mounted on the movable speed reducer 16, the turnover motor 14 is fixedly mounted on the movable speed reducer 16 through the rotating speed reducer shaft 16, the turnover motor rigidly mounted on the turnover mounting frame 16 and rigidly mounted on the movable mounting frame 19, the turnover mounting frame is fixedly mounted on the movable speed reducer 1 through the rotating frame 16, the movable speed reducer 19 is fixedly mounted on the rotating speed reducer 1 by the rotating speed reducer 1 and the rotating frame 16 through the rotating shaft 16, the movable mounting frame 1 and the movable speed reducer 1 and the rotating speed reducer 1 by the rotating speed reducer 1 and the rotating speed reducer 1 through the rotating shaft, the axle, the speed reducer is fixedly mounted on the mounting frame 1 and the speed reducer by the mounting frame 1 and the speed reducer in a fixed support, and the mounting frame is fixedly mounted in the position by the speed reducer in the way to be mounted to be in the position and the position. The turnover shaft 22 is rigidly mounted at the power output end of the turnover speed reducer 21, the turnover shaft 22 is mounted on the turnover mounting frame 19 in a matched manner through a bearing, the first electromagnetic suction block 23 is rigidly mounted on the turnover shaft 22, and the second electromagnetic suction block 24 is rigidly mounted at the telescopic end of the second hydraulic telescopic rod 13.

In detail, the guide rail sliding seat mechanism comprises a guide rail 4, a sliding seat 5, a rack 6, a gear 7, a gear shaft 8, a sliding speed reducer 9 and a sliding motor 10, wherein the sliding seat 5 is matched with the guide rail 4, the rack 6 is arranged on the lower end face of the guide rail 4, the gear 7 is meshed with the rack 6, the gear 7 is rigidly mounted on the gear shaft 8, the gear shaft 8 is matched with the sliding seat 5 through a bearing, the gear shaft 8 is rigidly mounted at the power output end of the sliding speed reducer 9, the sliding speed reducer 9 is fixed on a shell of the sliding motor 10 through a speed reducer bracket, the sliding motor 10 is rigidly mounted on the sliding seat 5 through a motor bracket, and the mounting position of the first electromagnetic suction block 23 corresponds to that of the second electromagnetic suction block 24.

The above embodiments are only exemplary embodiments of the present utility model and are not intended to limit the present utility model, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this utility model will occur to those skilled in the art, and are intended to be within the spirit and scope of the utility model.

Claims (2)

1. The utility model provides a lathe work is with work piece turning device, includes first guide rail slide mechanism (1), gusset (2), second guide rail slide mechanism (3), goes up and down to index the mechanism, its characterized in that: the lifting indexing mechanism comprises a mounting plate (11), a first hydraulic telescopic rod (12), a second hydraulic telescopic rod (13), a fixed block (14), an indexing motor (15), an indexing speed reducer (16), a connecting flange shaft (17), an indexing shaft (18), a turnover mounting frame (19), a turnover motor (20), a turnover speed reducer (21), a turnover rotating shaft (22), a first electromagnetic absorbing block (23) and a second electromagnetic absorbing block (24), the second guide rail sliding seat mechanism (3) is rigidly mounted on the first guide rail sliding seat mechanism (1) through a rib plate (2), the first guide rail sliding seat mechanism (1) and the second guide rail sliding seat mechanism (3) are both composed of guide rail sliding seat mechanisms, the second guide rail sliding seat mechanism (3) comprises 2 groups of guide rail sliding seats, the lifting indexing mechanism is symmetrically and rigidly mounted on the guide rail sliding seat of the second guide rail sliding seat mechanism (3) in a left-right symmetry manner, the first hydraulic telescopic rod (12) and the second hydraulic telescopic rod (13) are rigidly mounted on the guide rail sliding seat of the second guide rail sliding seat mechanism (3) in a left-right symmetry manner, the first guide rail sliding seat mechanism (14) is rigidly mounted on the fixed block (14) and rigidly mounted in the hollow end (14), the rotary speed reducer (16) is fixed on a shell of the rotary motor (15) through a speed reducer bracket, the connecting flange shaft (17) is rigidly connected between a power output end of the rotary speed reducer (16) and the rotary shaft (18), the rotary shaft (18) is mounted on the fixed block (14) through thrust bearing fit, the rotary mounting frame (19) is rigidly mounted on the rotary shaft (18), the rotary motor (20) is fixed on the rotary mounting frame (19) through a motor bracket, the speed reducer bracket of the rotary speed reducer (21) is fixed on a shell of the rotary motor (20), the rotary shaft (22) is rigidly mounted on a power output end of the rotary speed reducer (21), the rotary shaft (22) is mounted on the rotary mounting frame (19) through bearing fit, the first electromagnetic suction block (23) is rigidly mounted on the rotary shaft (22), and the second electromagnetic suction block (24) is rigidly mounted on a telescopic end of the second hydraulic telescopic rod (13).

2. The workpiece overturning device for lathe machining according to claim 1, wherein the guide rail sliding seat mechanism comprises a guide rail (4), a sliding seat (5), a rack (6), a gear (7), a gear shaft (8), a sliding speed reducer (9) and a sliding motor (10), the sliding seat (5) is installed on the guide rail (4) in a matched mode, the rack (6) is arranged on the lower end face of the guide rail (4), the gear (7) is meshed with the rack (6), the gear (7) is rigidly installed on the gear shaft (8), the gear shaft (8) is installed on the sliding seat (5) in a matched mode through a bearing, the gear shaft (8) is rigidly installed at a power output end of the sliding speed reducer (9), the sliding speed reducer (9) is fixed to a shell of the sliding motor (10) through a speed reducer bracket, the sliding motor (10) is rigidly installed on the sliding seat (5) through a motor bracket, and the first electromagnetic suction block (23) corresponds to the installation position of the second electromagnetic suction block (24).

Images