CN201516554U - Mobile multi-station machining machine tool - Google Patents

Abstract

A mobile multi-station machining machine tool is provided, a workbench (23) is provided with a lower clamp (6), an upper clamp (3) is arranged above the lower clamp (6), the upper clamp (3) is connected with an oil cylinder clamping assembly (1); a lifting oil cylinder (10) is arranged below the workbench (23), and the workbench (23) is driven to move up and down by the lifting oil cylinder (10); three tap profile cutters (4) are arranged on the right, left and rear side of the tap station (2) respectively, and the tap profile cutters (4) are mounted on an upper main shaft (7) which is driven by the motor; three boring profile cutters (8) are arranged on the right, left and rear side of the boring station (5) respectively, and the boring profile cutters (8) are mounted on a lower main shaft (9); and the upper main shaft (7) and the lower main shaft (9) are arranged on a large box (11) and may move in a T-shaped groove (20). According to the utility model, it is possible to complete multi-direction and multi-process machining by one operation of clamping, and parts machining efficiency and precision are all improved greatly.

Description

Portable multistation machining tool

Technical field

The invention relates to a kind of lathe, is specifically related to process the portable multistation machining tool of valve type, pipe joint class part.

Background technology

Parts such as various valves, pipe joint generally all need the processing of a plurality of directions, multiple working procedure.This class part processing on machine tool needs multiple clamping, constantly changes cutting direction and cutter, processes loaded down with trivial detailsly, and production efficiency is low, and machining accuracy is not high, has not satisfied the needs of development.As machine tool the end face and the screw thread of three directions of workpiece are processed, traditional technology is to clamp workpiece one end, and the other end of workpiece is carried out operations such as bore hole, face work, tapping; The other end is processed in tune then; Utilize the vertical end of anchor clamps processing again.Obviously, the efficient of conventional machining process is low, and machining accuracy is not high, and jig Design and manufacturing difficulty, and particularly when workpiece three direction out of plumb, the manufacturing of anchor clamps is just more difficult.

Summary of the invention

The technical problem that the invention will solve provides a kind of workpiece just can be finished a plurality of directions, multiple working procedure in a clamping processing, can improve the portable multistation machining tool of working (machining) efficiency, precision greatly.

For achieving the above object, the technical scheme of the invention is: portable multistation machining tool comprises clamping cylinder assembly 1, last anchor clamps 3, tapping and forming cutter 4, lower clamp 6, goes up main shaft 7, boring and milling molding cutter 8, lower main axis 9, hoist cylinder 10, big casing 11, feed cylinder assembly or feeding numerical control assembly 13, support 21, workbench 23; Lower clamp 6 is housed on workbench 23, and there are last anchor clamps 3 lower clamp 6 tops, and place work piece between lower clamp 6 and the last anchor clamps 3 is connected with clamping cylinder assembly 1 on the last anchor clamps 3, and last anchor clamps 3 are driven and can be moved up and down by clamping cylinder assembly 1; Hoist cylinder 10 is housed below the workbench 23, and workbench 23 is driven and can be moved up and down by hoist cylinder 10; There are boring and milling station 5 and tapping station 2 in lower clamp 6 tops, and workpiece can move between boring and milling station 5 and tapping station 2; Back three sides respectively have a tapping and forming cutter 4 about tapping station 2, and tapping and forming cutter 4 is installed on the main shaft 7, and last main shaft 7 is by driven by motor; Back three sides respectively have a boring and milling molding cutter 8 about boring and milling station 5, and boring and milling molding cutter 8 is installed on the lower main axis 9; Support 21 1 ends and lower main axis 9 link, and the other end then links with feed cylinder assembly or feeding numerical control assembly 13 (by ball screw assembly, control axially-movable); When feed cylinder assembly or feeding numerical control assembly 13 seesaw, just drive lower main axis 9 and boring and milling molding cutter 8 seesaws, thereby finish the feed motion or the withdrawing of cutter; Last main shaft 7 and lower main axis 9 are installed on the big casing 11, equally, when feed cylinder assembly or feeding numerical control assembly 13 seesaw, also can drive main shaft 7 and tapping and forming cutter 4 seesaws, the below of big casing 11 is installed in the T type groove 20, and can in T type groove 20, move, can process the workpiece of different angles like this.

On boring and milling station 5, workpiece 4 is placed clamping on the lower clamp body 6, last clamp body 3 moves downward in the drive of clamping cylinder assembly 1, and workpiece is clamped; This moment, the boring and milling molding cutter 8 of three directions rotated and feedings, finished the processing to workpiece endoporus and end face simultaneously.After finishing above-mentioned processing, under hoist cylinder assembly or 10 effects of lifting numerical control assembly, workpiece is risen to tapping station 2, last main shaft 7 drives tapping and forming cutter 4 and finishes tapping processing.Big casing 11 moves in T type groove 20, can process the workpiece of different angles like this, and better adaptability has so just been arranged.

The invention just can be finished the processing of a plurality of directions, multiple working procedure in a clamping, improved part processing efficient and precision greatly.

Description of drawings

Accompanying drawing 1 is the main TV structure schematic diagram of the invention

Accompanying drawing 2 is the plan structure schematic diagram of the invention

The specific embodiment

Below in conjunction with embodiment the invention is further described, following each embodiment only is used to illustrate the invention, but to the invention without limits.

Portable multistation machining tool comprises clamping cylinder assembly 1, last anchor clamps 3, tapping and forming cutter 4, lower clamp 6, goes up main shaft 7, boring and milling molding cutter 8, lower main axis 9, hoist cylinder 10, big casing 11, feed cylinder assembly or feeding numerical control assembly 13, support 21, workbench 23; Lower clamp 6 is housed on workbench 23, and there are last anchor clamps 3 lower clamp 6 tops, and place work piece between lower clamp 6 and the last anchor clamps 3 is connected with clamping cylinder assembly 1 on the last anchor clamps 3, and last anchor clamps 3 are driven and can be moved up and down by clamping cylinder assembly 1; Hoist cylinder 10 is housed below the workbench 23, and workbench 23 is driven and can be moved up and down by hoist cylinder 10; There are boring and milling station 5 and tapping station 2 in lower clamp 6 tops, and workpiece can move between boring and milling station 5 and tapping station 2; Back three sides respectively have a tapping and forming cutter 4 about tapping station 2, and tapping and forming cutter 4 is installed on the main shaft 7, and last main shaft 7 is by driven by motor; Back three sides respectively have a boring and milling molding cutter 8 about boring and milling station 5, and boring and milling molding cutter 8 is installed on the lower main axis 9; Support 21 1 ends and lower main axis 9 link, and the other end then links with feed cylinder assembly or feeding numerical control assembly 13 (by ball screw assembly, control axially-movable); When feed cylinder assembly or feeding numerical control assembly 13 seesaw, just drive lower main axis 9 and boring and milling molding cutter 8 seesaws, thereby finish the feed motion or the withdrawing of cutter; Last main shaft 7 and lower main axis 9 are installed on the big casing 11, equally, when feed cylinder assembly or feeding numerical control assembly 13 seesaw, also can drive main shaft 7 and tapping and forming cutter 4 seesaws, the below of big casing 11 is installed in the T type groove 20, and can in T type groove 20, move, can process the workpiece of different angles like this.

On boring and milling station 5, workpiece 4 is placed clamping on the lower clamp body 6, last clamp body 3 moves downward in the drive of clamping cylinder assembly 1, and workpiece is clamped; This moment, the boring and milling molding cutter 8 of three directions rotated and feedings, finished the processing to workpiece endoporus and end face simultaneously.After finishing above-mentioned processing, under hoist cylinder assembly or 10 effects of lifting numerical control assembly, workpiece is risen to tapping station 2, last main shaft 7 drives tapping and forming cutter 4 and finishes tapping processing.Big casing 11 moves in T type groove 20, can process the workpiece of different angles like this, and better adaptability has so just been arranged.

Claims (1)

1. portable multistation machining tool is characterized in that: portable multistation machining tool comprises clamping cylinder assembly (1), goes up anchor clamps (3), tapping and forming cutter (4), lower clamp (6), go up main shaft (7), boring and milling molding cutter (8), lower main axis (9), hoist cylinder (10), big casing (11), feed cylinder assembly or feeding numerical control assembly (13), support (21), workbench (23); Lower clamp (6) is housed on workbench (23), and there are last anchor clamps (3) lower clamp (6) top, is connected with clamping cylinder assembly (1) on the last anchor clamps (3), and last anchor clamps (3) are driven and can be moved up and down by clamping cylinder assembly (1); Hoist cylinder (10) is housed below the workbench (23), and workbench (23) is driven and can be moved up and down by hoist cylinder (10); There are boring and milling station (5) and tapping station (2) in lower clamp (6) top, and workpiece can move between boring and milling station (5) and tapping station (2); Back three sides respectively have a tapping and forming cutter (4) about tapping station (2), and tapping and forming cutter (4) is installed on the main shaft (7), and last main shaft (7) is by driven by motor; Back three sides respectively have a boring and milling molding cutter (8) about boring and milling station (5), and boring and milling molding cutter (8) is installed on the lower main axis (9); Support (21) one ends and lower main axis (9) link, and the other end then links with feed cylinder assembly or feeding numerical control assembly (13), and feed cylinder assembly or feeding numerical control assembly (13) are by ball screw assembly, control axially-movable; When feed cylinder assembly or feeding numerical control assembly (13) when seesawing, can drive lower main axis (9) and cutter (8) seesaws; Last main shaft (7) and lower main axis (9) are installed on the big casing (11), and the below of big casing (11) is installed in the T type groove (20), and can move in T type groove (20).

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