CN110369739B - Annular layout four-spindle eight-sliding-table vertical numerically controlled lathe - Google Patents

Abstract

The invention discloses an annular layout four-spindle eight-sliding-table vertical numerically controlled lathe which structurally comprises a workbench, a sliding table and a machining device, wherein the sliding table is provided with a fixed plate and a sliding rod, the machining device is provided with a dismounting plate, a machining groove and a residue cleaner, and the annular layout four-spindle eight-sliding-table vertical numerically controlled lathe has the beneficial effects that: can pass through cardboard and draw-in groove, the mutual buckle design of fixed slot, carry out twice rotatory step according to the order, the powder residue of scraping on the residue clearance ware clears up, petal form design through the scraper blade simultaneously, remaining powder meshes the clearance on the bearing housing that has petal form line to the inner circle, powder clean up in the inner wall line of bearing housing, there is the card powder situation in avoiding the bearing housing, make the bearing housing later stage difficult to clear up, cause the influence to bearing housing performance, remaining surplus powder also is difficult to concentrate the clearance on the vertical numerical control lathe of four eight slip tables of main shafts simultaneously.

Description

Annular layout four-spindle eight-sliding-table vertical numerically controlled lathe

Technical Field

The invention relates to the field of numerically controlled lathes, in particular to an annular layout vertical numerically controlled lathe with four main shafts and eight sliding tables.

Background

The lathe is divided into a plurality of forms, wherein one vertical lathe is mainly used for surface machining of inner and outer cylindrical surfaces and conical surfaces in a rotating mode when turning is carried out, and the vertical lathe is used for machining bearing sleeves. The processing procedure of the bearing sleeve needs to be continuously carried out, and a plurality of processing procedures are needed from the blank to the processing and forming.

Aiming at the existing annular layout four-spindle eight-sliding-table vertical numerically controlled lathe, a relative scheme is made aiming at the following problems:

there is the bearing housing that an inner wall has the line, can remain the powder card in the line at the in-process of processing, so need clear up the powder man-hour, but the eight slip table vertical numerically controlled lathe of four main shafts of annular overall arrangement is difficult to concentrate when carrying out the powder clearance and clears up, can make the powder remain, leads to remaining incidentally on the bearing housing inner wall, influences the quality and the performance of bearing housing, causes the lathe to be difficult to the clearance simultaneously.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provides an annular layout four-spindle eight-sliding-table vertical numerically controlled lathe.

The invention is realized by adopting the following technical scheme: the annular layout four-spindle eight-sliding-table vertical numerically controlled lathe structurally comprises a workbench, a sliding table and a machining device, wherein the workbench is arranged below the sliding table, the sliding table is arranged between the workbench and the machining device, the machining device is arranged above the sliding table, the workbench is arranged on a spindle, and the spindle is distributed on the oblique opposite angles of the outer surface of the workbench; the sliding table is provided with a fixed plate and sliding rods, the fixed plate is connected between the sliding rods and the sliding table, and the sliding rods are distributed on the outer surface of the machining device; the processing device is provided with a detaching plate, a processing groove and a residue cleaner, the detaching plate is embedded between the processing device and the workbench, the processing groove is uniformly distributed on the processing device, and the residue cleaner is embedded at the bottom inside the processing groove.

As optimization, the disassembly plate is provided with disassembly grooves, the disassembly grooves are embedded in the disassembly plate, the number of the disassembly grooves is 9, and the disassembly grooves are of double-layer cylindrical structures.

Preferably, the processing tank is provided with a guide plate, the guide plate is welded at the bottom inside the processing tank, the processing tank is of a hollow cylindrical structure, the number of the processing tanks is 9, and the guide plate is made of metal.

Preferably, the guide plate is provided with guide grooves, the guide grooves are embedded in the guide plate, the guide grooves are of petal-shaped structures, and the number of the guide grooves is 9.

As optimization, the residue clearance ware is equipped with collection sediment board, pull rod, scraper blade, collection sediment board welds in the pull rod bottom, the pull rod buckle is connected in the scraper blade below, the scraper blade inlays locates the processing inslot portion, collection sediment board is circular platelike structure, collection sediment board is the metal material, the scraper blade is petal form circular structure, the scraper blade is the metal material.

As optimization, the slag collecting plate is provided with a slag collecting groove and a clamping groove, the slag collecting groove is embedded in the slag collecting plate, the clamping groove is embedded in the middle of the slag collecting groove, the slag collecting groove is of a circular structure, the slag collecting groove is made of metal, and the clamping groove is of a middle circular cross-shaped structure.

As an optimization, the pull rod is provided with a rod body and a clamping plate, the rod body is welded below the clamping plate, the clamping plate is embedded below the scraper, the pull rod is of a circular rod-shaped structure, the pull rod is made of metal, the clamping plate is of a rectangular plate-shaped structure, and the clamping plate is made of metal.

As the optimization, the scraper blade is equipped with fixed slot, sand grip, the fixed slot inlays locates the scraper blade bottom, sand grip evenly distributed is on the scraper blade surface, the fixed slot is middle circular shape cruciform structure, the sand grip is a plurality of, the sand grip is the metal material, the fixed slot is the cruciform distribution with the draw-in groove in the space.

Advantageous effects

The invention relates to an annular layout four-spindle eight-sliding-table vertical numerically controlled lathe which works:

the powder residue cleaning device is provided with the dismounting plate, the dismounting plate is provided with the dismounting groove, the dismounting plate is moved upwards to expose the dismounting groove, and powder residue cleaning is carried out through the dismounting groove;

the residue cleaner is provided with the residue collecting plate, the pull rod and the scraper, when powder residue is cleaned, the residue collecting plate is pulled down to drive the pull rod to move downwards so as to drive the scraper to move downwards, and when the scraper moves downwards, the scraper is meshed with the inner wall of the bearing sleeve in the machining groove so as to scrape powder residues clamped in the grains of the inner wall of the bearing sleeve;

when the scraper moves downwards, the raised lines on the outer surface of the scraper are meshed with the lines on the inner wall of the bearing sleeve, so that powder on the inner wall of the bearing sleeve is scraped in the downward moving process, and after the powder is scraped and falls on the slag collecting plate, the pull rod is rotated anticlockwise to be separated from the fixed groove, so that the scraper is not controlled;

when the pull rod rotates anticlockwise, the rod body on the pull rod drives the clamping plate to rotate, so that the clamping plate is parallel to the fixed groove, and when the pull rod body is pulled down, the clamping plate is separated from controlling the scraper;

through being equipped with a collection sediment board, collection sediment board is equipped with collection slag groove, draw-in groove, drops the collection slag groove on the collection sediment board when the powder residue is hung by the scraper blade and falls, breaks away from the control back to the scraper blade when the cardboard, because the fixed slot is the cross distribution with the draw-in groove in the space, therefore cardboard card goes into in the fixed slot, at clockwise rotation cardboard for the cardboard card is on collection sediment board, and the pulling pull rod will take out a collection sediment board this moment, clears up the powder residue.

Compared with the prior art, the invention has the beneficial effects that: can pass through cardboard and draw-in groove, the mutual buckle design of fixed slot, carry out twice rotatory step according to the order, the powder residue of scraping on the residue clearance ware clears up, petal form design through the scraper blade simultaneously, remaining powder meshes the clearance on the bearing housing that has petal form line to the inner circle, powder clean up in the inner wall line of bearing housing, there is the card powder situation in avoiding the bearing housing, make the bearing housing later stage difficult to clear up, cause the influence to bearing housing performance, remaining surplus powder also is difficult to concentrate the clearance on the vertical numerical control lathe of four eight slip tables of main shafts simultaneously.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a vertical numerically controlled lathe with four spindles and eight sliding tables in an annular layout.

FIG. 2 is a schematic view of a top view structure of a vertical numerically controlled lathe with four spindles and eight sliding tables in an annular layout according to the present invention;

FIG. 3 is a cross-sectional view of a circular layout four-spindle eight-slide vertical numerically controlled lathe of the present invention;

FIG. 4 is a schematic top view of the guide plate of the present invention;

FIG. 5 is an enlarged schematic view of the residue cleaner of the present invention

FIG. 6 is a schematic top view of a slag collection plate according to the present invention;

FIG. 7 is an enlarged view of the pull rod of the present invention;

FIG. 8 is a bottom view of the squeegee of the invention.

FIG. 9 is a cross-sectional view of the squeegee of the invention.

FIG. 10 is a schematic top view of the squeegee of the invention.

In the figure: the device comprises a workbench 1, a sliding table 2, a processing device 3, a main shaft 10, a fixing plate 20, a sliding rod 21, a detaching plate 30, a processing groove 31, a residue cleaner 32, a detaching groove 300, a guiding plate 310, a guiding groove a, a residue collecting plate 320, a pull rod 321, a scraping plate 322, a residue collecting groove b, a clamping groove c, a rod body d, a clamping plate e, a fixing groove f and a convex strip g.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution of an annular layout four-spindle eight-sliding-table vertical numerically controlled lathe: the structure of the device comprises a workbench 1, a sliding table 2 and a processing device 3, wherein the workbench 1 is arranged below the sliding table 2, the sliding table 2 is arranged between the workbench 1 and the processing device 3, the processing device 3 is arranged above the sliding table 2, the workbench 1 is arranged on a main shaft 10, and the main shaft 10 is distributed on the oblique opposite angles of the outer surface of the workbench 1; the sliding table 2 is provided with a fixed plate 20 and a sliding rod 21, the fixed plate 20 is connected between the sliding rod 21 and the sliding table 2, and the sliding rods 21 are distributed on the outer surface of the processing device 3; the processing device 3 is provided with a detaching plate 30, a processing groove 31 and a residue cleaner 32, the detaching plate 30 is embedded between the processing device 3 and the workbench 1, the processing groove 31 is uniformly distributed on the processing device 3, the residue processor 32 is embedded at the bottom inside the processing groove 31, the detaching plate 30 is provided with a detaching groove 300, the detaching groove 300 is embedded inside the detaching plate 30, the detaching groove 300 is used for assisting the residue cleaner 32 in detaching the residue collecting plate 320 when cleaning the residue, the processing groove 31 is provided with a guiding plate 310, the guiding plate 310 is welded at the bottom inside the processing groove 31, the guiding plate 310 is used for matching with the scraper 322 to carry out residue scraping work on lines on the inner wall of the bearing sleeve, the guiding plate 310 is provided with a guiding groove a, the guiding groove a is embedded on the guiding plate 310, the guiding plate 310 corresponds to the processing groove 31 one by one, the guiding groove a is used for assisting the scraper 322 in scraping the residue, the residue cleaner 32 is provided with a residue collecting plate 320, a pull rod 321 and a scraper 322, the residue collecting plate 320 is welded at the bottom of the pull rod 321, the pull rod 321 is connected below the scraper 322 in a buckling manner, the scraper 322 is embedded inside the processing tank 31, the residue collecting plate 320 is used for collecting powder residues, the pull rod 321 is used for cleaning residues by matching with the residue collecting plate 320 and the scraper 322, the scraper 322 is used for scraping residues on the inner wall of the bearing sleeve, the residue collecting plate 320 is provided with a residue collecting groove b and a clamping groove c, the residue collecting groove b is embedded on the residue collecting plate 320, the clamping groove c is embedded in the middle part of the residue collecting groove b, the residue collecting groove b is used for collecting powder residues, the clamping groove c is used for clamping the pull rod 321 and pulling out the residue collecting plate 320, the pull rod 321 is provided with a rod body d and a clamping plate e, the rod body d is welded below the clamping plate e, and the clamping plate e is embedded below the scraper 322, the body of rod d is used for connecting album sediment board 320 and cardboard e, cardboard e is used for blocking draw-in groove c and fixed slot f, scraper blade 322 is equipped with fixed slot f, sand grip g, fixed slot f inlays and locates scraper blade 322 bottom, sand grip g evenly distributed is on scraper blade 322 surface, fixed slot f is used for blocking cardboard e, and the pulling scraper blade 322 of being convenient for removes, sand grip g is used for carrying out the powder scraping with the line looks meshing of bearing housing inner wall.

When in use, the disassembly plate 30 is moved upwards to expose the disassembly groove 300, and powder residue is cleaned through the disassembly groove 300; when powder residue is cleaned, the pull rod 321 is driven to move downwards by pulling the residue collection plate 320 downwards, so that the scraper 322 is driven to move downwards, and when the scraper 322 moves downwards, the scraper 322 is meshed with the inner wall of the bearing sleeve in the processing groove 31, so that powder residue clamped in the grains of the inner wall of the bearing sleeve is scraped; when the scraper 322 moves downwards, the convex strip g on the outer surface of the scraper 322 is meshed with the grains on the inner wall of the bearing sleeve, so that the powder on the inner wall of the bearing sleeve is scraped in the downward moving process, and after the powder is scraped and falls on the slag collecting plate 320, the pull rod 321 is rotated anticlockwise to separate the pull rod 321 from the fixed groove f, so that the scraper 322 is separated from being controlled; when the pull rod 321 rotates anticlockwise, the rod body d on the pull rod 321 drives the clamping plate e to rotate, so that the clamping plate e is parallel to the fixing groove f, and when the pull rod body d is pulled down, the clamping plate e is separated from controlling the scraper 322; during the collection slag groove b on the collection slag plate 320 that drops when the powder residue is hung by scraper blade 322 falls, break away from the control back to scraper blade 322 when cardboard e, because fixed slot f is the cross distribution with draw-in groove c in the space, consequently during cardboard e card goes into fixed slot f, at clockwise rotation cardboard e for cardboard e card is on collection slag plate 320, and pulling pull rod 321 will take out collection slag plate 320 this moment, clears up the powder residue.

Compared with the prior art, the invention has the technical progress that:

can pass through cardboard and draw-in groove, the mutual buckle design of fixed slot, carry out twice rotatory step according to the order, the powder residue of scraping on the residue clearance ware clears up, petal form design through the scraper blade simultaneously, remaining powder meshes the clearance on the bearing housing that has petal form line to the inner circle, powder clean up in the inner wall line of bearing housing, there is the card powder situation in avoiding the bearing housing, make the bearing housing later stage difficult to clear up, cause the influence to bearing housing performance, remaining surplus powder also is difficult to concentrate the clearance on the vertical numerical control lathe of four eight slip tables of main shafts simultaneously.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (2)

1. The utility model provides a vertical numerical control lathe of eight slip tables of four main shafts of annular overall arrangement, its structure includes workstation (1), slip table (2), processingequipment (3), slip table (2) below is located in workstation (1), between workstation (1) and processingequipment (3) are located in slip table (2), slip table (2) top is located in processingequipment (3), main shaft (10) distribute in workstation (1) surface diagonal angle on, its characterized in that:

the sliding table (2) is provided with a fixing plate (20) and a sliding rod (21), the fixing plate (20) is connected between the sliding rod (21) and the sliding table (2), the sliding rod (21) is distributed on the outer surface of the machining device (3), the machining device (3) is provided with a dismounting plate (30), a machining groove (31) and a residue cleaner (32), the dismounting plate (30) is embedded between the machining device (3) and the workbench (1), the machining groove (31) is uniformly distributed on the machining device (3), the residue processor (32) is embedded at the inner bottom of the machining groove (31), the dismounting plate (30) is provided with a dismounting groove (300), and the dismounting groove (300) is embedded inside the dismounting plate (30);

the processing tank (31) is provided with a guide plate (310), the guide plate (310) is welded at the bottom inside the processing tank (31), the guide plate (310) is provided with a guide groove (a), the guide groove (a) is embedded in the guide plate (310), the guide plate (310) and the processing tank (31) are in one-to-one correspondence, and the guide groove (a) is used for assisting a scraper (322) to carry out residue scraping work;

the residue cleaner (32) is provided with a residue collecting plate (320), a pull rod (321), a scraper (322), the residue collecting plate (320) is welded at the bottom of the pull rod (321), the pull rod (321) is connected below the scraper (322) in a buckling manner, the scraper (322) is embedded inside a processing groove (31), the pull rod (321) is used for being matched with the residue collecting plate (320) and the scraper (322) to clean the residue, the scraper (322) is used for scraping the residue on the inner wall of a bearing sleeve, the residue collecting plate (320) is provided with a residue collecting groove (b) and a clamping groove (c), the residue collecting groove (b) is embedded on the residue collecting plate (320), the clamping groove (c) is embedded in the middle part of the residue collecting groove (b), the residue collecting groove (b) is used for collecting the powder residue, the clamping groove (c) is used for clamping the pull out the residue collecting plate (320), pull rod (321) are equipped with the body of rod (d), cardboard (e), the body of rod (d) welds in cardboard (e) below, cardboard (e) inlay and locate scraper blade (322) below, the body of rod (d) are used for connecting album cinder plate (320) and cardboard (e), cardboard (e) are used for calorie fixed slot (f), scraper blade (322) are equipped with fixed slot (f), sand grip (g), fixed slot (f) inlay and locate scraper blade (322) bottom, sand grip (g) evenly distributed is on scraper blade (322) surface, fixed slot (f) are used for blocking cardboard (e), and the pulling scraper blade of being convenient for (322) remove.

2. The annular layout four-spindle eight-sliding-table vertical numerically controlled lathe according to claim 1, characterized in that: the convex strip (g) is used for being meshed with the grains on the inner wall of the bearing sleeve.

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