CN206104897U - Oblique bed saddle numerical control lathe for form grinding wheel - Google Patents

Abstract

The utility model discloses an oblique bed saddle numerical control lathe for form grinding wheel, be provided with main shaft tank base on the lathe bed, primary motor, oblique saddle, be provided with voluntarily to the tool arm on the tool setting appearance mount pad, be provided with feeding device to one side on the saddle inclined plane, feeding device includes Z axle feeding device, X axle feeding device, primary motor sets up in main shaft tank base one side, X axle feeding device sets up the opposite side at main shaft tank base, Z axle feeding device sets up on X axle feeding device, be provided with quadruplex position electric knife frame on the Z axle feeding device, be provided with the headstock on the main shaft tank base, be provided with big pull rod in the headstock, big pull rod one end is connected with double -piston rotary cylinder, primary motor drives big pull rod through main driving belt and rotates, the device can emery wheel internal hole positioning centre gripping and with emery wheel internal hole positioning centre gripping, the utility model discloses simple structure, the flexibility is good, and is with low costs, and machining efficiency is high, can alleviate workman intensity of labour, and the device operation is reliable and stable.

Description

A kind of oblique saddle form grinding wheel numerically controlled lathe

Technical field

This utility model is related to numerically controlled lathe technical field, specifically a kind of oblique saddle form grinding wheel numerical control lathe Bed.

Background technology

Grinding, in machining polish is under the jurisdiction of, and processing capacity is few, high precision, applies in machine industry Than wide.Emery wheel is topmost class grinding tool in grinding, is that bonding agent Jing pressed compacts, drying are added in ceramic abrasive With roasting and made by porous body.Most emery wheel is cylindrical.And at this stage as society is to all types of industries and civilian The requirement more and more higher of shape of product, the demand of various non-cylindrical form grinding wheels is also more and more.Traditional form grinding wheel Processing typically using diamond-impregnated wheel or diamond pen, using contour machining equipment reconditioning is controlled manually, and machining accuracy is flexible Property and efficiency it is not high, for type face for free curve emery wheel for, manual reconditioning even more cannot complete its processing.

At this stage Digit Control Machine Tool has very big in each side such as process flexibility, high-quality and high efficiency compared with machine tool Superiority, so Digit Control Machine Tool is popularized very much in metal-working industry application.Emery wheel is identical with turning class workpiece, is all revolving body Part, so in theory emery wheel can be processed with numerically controlled lathe.But it is because that the special substance of emery wheel itself, lathe are led The each side such as sealing and protective overall dust suction, the Cutting Process of emery wheel and cutting parameter and installation way at the positions such as rail are with gold Category processing is different, so at this stage the numerically controlled lathe of all machine tool plant's productions can not all be used directly to turning grinding wheels.

Therefore, a simple structure, good motility, low cost, plus work efficiency are designed to overcome the shortcomings of above-mentioned technology Rate is high, can mitigate a kind of oblique saddle form grinding wheel numerically controlled lathe of labor strength, and exactly inventor is to be solved asks Topic.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model is to provide a kind of oblique saddle form grinding wheel numerical control lathe Bed, its simple structure, motility is good, and low cost is high in machining efficiency, can mitigate labor strength.

This utility model solves the technical scheme that its technical problem adopted：A kind of oblique saddle form grinding wheel numerical control lathe Bed, it includes lathe bed, main spindle box base, tool setting gauge mounting seat, automatic tool preset arm, four station electric knife rests, feed arrangement, oblique saddle Seat, frock clamp, the frock clamp includes chuck terminal pad, tool locating disk, heart axle, power chuck, sets on the lathe bed Main spindle box base, main motor, oblique saddle are equipped with, automatic tool preset arm, the oblique saddle are provided with the tool setting gauge mounting seat Feed arrangement is provided with inclined-plane, the feed arrangement includes Z axis feed arrangement, X-axis feed arrangement, and the main motor is arranged In main spindle box base side, the X-axis feed arrangement is arranged on the opposite side of main spindle box base, and the Z axis feed arrangement is arranged On X-axis feed arrangement, four station electric knife rests are provided with the Z axis feed arrangement, are provided with the main spindle box base Main spindle box, is provided with big pull bar in the main spindle box, described big pull bar one end is connected with double-piston rotary cylinder, and the master is electronic Machine drives big pull bar to rotate by main drive belt.

Further, when the numerically controlled lathe is clamped with emery wheel Internal hole positioning, described big pull bar one end is by heart axle and little drawing Bar connects, and the heart axle is arranged in emery wheel, and the big pull bar is fixed by chuck terminal pad, tool locating disk and emery wheel side Connection, the lower link bar is arranged on the opposite side of emery wheel, c-type snap ring is fixed between the emery wheel and lower link bar.

Further, when the numerically controlled lathe is with grinding wheel cylindrical positioning clamping, described big pull bar one end passes through chuck terminal pad Connection power chuck, the power chuck is connected with emery wheel.

The beneficial effects of the utility model are：

1st, this utility model simple structure, motility is good, and low cost is high in machining efficiency, can mitigate labor strength, dress Stable and reliable operation is put, machining accuracy is high.

Description of the drawings

Fig. 1 is this utility model structural front view.

Fig. 2 is this utility model structure left view.

Fig. 3 is this utility model with emery wheel Internal hole positioning clamping device schematic diagram.

Fig. 4 is this utility model with grinding wheel cylindrical locating and clamping apparatus schematic diagram.

Description of reference numerals：1- lathe beds；2- main spindle box bases；3- tool setting gauge mounting seats；4- automatic tool preset arms；The stations of 5- tetra- Electric driving tool post；6-Z axle feed arrangements；7-X axle feed arrangements；The oblique saddles of 8-；9- main motors；10- main drive belts；11- is double Piston rotary cylinder；The big pull bars of 12-；13- main spindle boxes；14- frock clamps；15- emery wheels；16- chuck terminal pads；17- frocks are determined Position disk；18-C type snap rings；19- heart axles；20- lower link bars；21- power chucks.

Specific embodiment

With reference to specific embodiment, this utility model is expanded on further, it should be appreciated that these embodiments are merely to illustrate this Utility model rather than restriction scope of the present utility model.In addition, it is to be understood that in the content for having read this utility model instruction Afterwards, those skilled in the art can make various changes or modifications to this utility model, and these equivalent form of values also fall within application Appended claims limited range.

It is this utility model structural front view referring to Fig. 1, is this utility model structure left view referring to Fig. 2, the structure one Plant the oblique numerically controlled lathe of saddle form grinding wheel 15, including lathe bed 1, the base 2 of main spindle box 13, tool setting gauge mounting seat 3, automatic tool preset arm 4th, four station electric knife rests 5, feed arrangement, oblique saddle 8, frock clamp 14, frock clamp 14 includes chuck terminal pad 16, frock Positioning disk 17, heart axle 19, power chuck 21, are provided with the base 2 of main spindle box 13, main motor 9, oblique saddle 8, to knife on lathe bed 1 Automatic tool preset arm 4 is provided with instrument mounting seat 3, feed arrangement is provided with the inclined-plane of oblique saddle 8, feed arrangement feeds including Z axis Device 6, X-axis feed arrangement 7, main motor 9 is arranged on the side of 13 base of main spindle box 2, and X-axis feed arrangement 7 is arranged on main spindle box The opposite side of 13 bases 2, Z axis feed arrangement 6 is arranged on X-axis feed arrangement 7, and four stations electricity is provided with Z axis feed arrangement 6 Movable knife rack 5, is provided with main spindle box 13, main spindle box 13 on the base 2 of main spindle box 13 and is provided with big pull bar 12, and the one end of big pull bar 12 connects Double-piston rotary cylinder 11 is connected to, main motor 9 drives big pull bar 12 to rotate by main drive belt 10.

This utility model increased numerically controlled lathe tool auto-checking instrument, can be carried out according to the abrasion condition automatic tool preset of cutter tool To knife and compensation, working (machining) efficiency and precision are improved.The clamping of workpiece adopts pneumatic pinch mode, is to ensure enough clamping forces, From major diameter double-piston rotary cylinder 11, pinching action is quick, reliability and cleaning, and configures pressure detection switch, with numerical control System interlock, can shut down rapidly in the case of air pressure bust, it is ensured that the safety of equipment and operator in the course of processing.

Referring to Fig. 3 be this utility model with emery wheel Internal hole positioning clamping device schematic diagram, Fig. 4 is this utility model with emery wheel Excircle orientation clamping device schematic diagram, when numerically controlled lathe is clamped with the Internal hole positioning of emery wheel 15, the one end of big pull bar 12 passes through heart axle 19 It is connected with lower link bar 20, heart axle 19 is arranged in emery wheel 15, big pull bar 12 passes through chuck terminal pad 16, tool locating disk 17 and sand Take turns 15 sides to be fixedly connected, lower link bar 20 is arranged on the opposite side of emery wheel 15, and c-type card is fixed between emery wheel 15 and lower link bar 20 Ring 18.When numerically controlled lathe is clamped with the excircle orientation of emery wheel 15, the one end of big pull bar 12 connects power chuck by chuck terminal pad 16 21, power chuck 21 is connected with emery wheel 15.Emery wheel 15 is enclosed within heart axle 19, rotary cylinder pulls big pull bar 12, pulls then Lower link bar 20, using c-type snap ring 18, emery wheel 15 is firmly pressed on tool locating disk 17；If cylindrical fixed with emery wheel 15 If the clamping of position, only tool locating disk 17, the component of heart axle 19 and lower link bar 20 need to be laid down from chuck terminal pad 16, then will Standard power chuck 21 is installed in chuck terminal pad 16, you can realization is tight with cylindrical locating clip to emery wheel 15, and two ways can Easily exchange.

Claims (3)

1. a kind of oblique saddle form grinding wheel numerically controlled lathe, it is characterised in that：It includes lathe bed, main spindle box base, tool setting gauge peace Dress seat, automatic tool preset arm, four station electric knife rests, feed arrangement, oblique saddle, frock clamp, the frock clamp includes chuck Terminal pad, tool locating disk, heart axle, power chuck, are provided with main spindle box base, main motor, oblique saddle, institute on the lathe bed State and automatic tool preset arm is provided with tool setting gauge mounting seat, on the oblique saddle inclined-plane feed arrangement, the feed arrangement are provided with Including Z axis feed arrangement, X-axis feed arrangement, the main motor is arranged on main spindle box base side, the X-axis feed arrangement The opposite side of main spindle box base is arranged on, the Z axis feed arrangement is arranged on X-axis feed arrangement, on the Z axis feed arrangement Four station electric knife rests are provided with, main spindle box is provided with the main spindle box base, big pull bar, institute are provided with the main spindle box State big pull bar one end and be connected with double-piston rotary cylinder, the main motor drives big pull bar to rotate by main drive belt.

2. a kind of oblique saddle form grinding wheel numerically controlled lathe according to claim 1, it is characterised in that：The numerically controlled lathe When being clamped with emery wheel Internal hole positioning, described big pull bar one end is connected by heart axle with lower link bar, and the heart axle is arranged in emery wheel, The big pull bar is fixedly connected by chuck terminal pad, tool locating disk with emery wheel side, and the lower link bar is arranged on emery wheel Opposite side, is fixed with c-type snap ring between the emery wheel and lower link bar.

3. a kind of oblique saddle form grinding wheel numerically controlled lathe according to claim 1, it is characterised in that：The numerically controlled lathe During with grinding wheel cylindrical positioning clamping, described big pull bar one end by chuck terminal pad connect power chuck, the power chuck with Emery wheel connects.