CN115365520B

CN115365520B - Split lathe for turning cylinder with ultra-large diameter

Info

Publication number: CN115365520B
Application number: CN202211314349.3A
Authority: CN
Inventors: 王晓路; 张广忠; 张飞; 闫久智; 常晖; 金海峰; 温立军; 张志刚; 高红波; 张标; 王贺东
Original assignee: Zunhua Shangong Heavy Machinery Manufacturing Co ltd
Current assignee: Zunhua Shangong Heavy Machinery Manufacturing Co ltd
Priority date: 2022-10-26
Filing date: 2022-10-26
Publication date: 2023-01-24
Anticipated expiration: 2042-10-26
Also published as: CN115365520A

Abstract

The invention discloses a split lathe for turning a cylinder with an ultra-large diameter. The machine tool comprises a headstock, a tool rest guide rail and a tailstock guide rail, wherein the headstock, the tailstock guide rail and the tool rest guide rail are of a split structure; a tool rest guide rail parallel to the tailstock guide rail is laid on the ground outside the headstock, a tool rest support frame in sliding connection with the tool rest guide rail is installed on the tool rest guide rail, and the tool rest is installed on the tool rest support frame. The lathe head box, the tailstock guide rail and the tool rest guide rail are of split structures, installation and adjustment are convenient, the diameter of the machining cylinder body is adjusted through the height of the lathe head and the tailstock, the cylinder body with the ultra-large diameter can be turned, and the length of the machining cylinder body is adjusted through the length of the tailstock guide rail, so that machining efficiency is improved, and cost is reduced.

Description

Split lathe for turning cylinder with ultra-large diameter

Technical Field

The invention relates to a lathe, in particular to a split lathe for turning an ultra-large diameter cylinder.

Background

At present, the barrels of rotary kilns and granulation dryers with oversized diameters adopt a multi-section welding structure, the butt joints of two sections of barrels are connected in a welding mode, and wheel belts are arranged outside the barrels. After the wheel belt is processed to be qualified, the wheel belt is installed on the outer circumferential surface of the cylinder body, the cylinder body can deform after being welded, the coaxiality of the wheel belt and the cylinder body cannot be guaranteed, the service life of the wheel belt and the riding wheel can be influenced after the coaxiality is out of tolerance, and the maintenance cost is increased. The cylinder body with the super-large diameter and the wheel belt cannot be subjected to turning processing on a common lathe. The patent of the utility model discloses a special lathe of processing barrel is disclosed in the chinese utility model with the publication number CN203209977U, and this utility model can only process the barrel of minor diameter, can't process the major diameter barrel.

Disclosure of Invention

The invention aims to solve the technical problems and provides an economical and practical split lathe for turning a cylinder with an ultra-large diameter.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a split type lathe for turning a cylinder with an ultra-large diameter comprises a headstock, a motor, a tool rest and a tailstock, wherein a chuck is installed on a main shaft of the headstock, the tailstock is provided with a tip coaxial with the main shaft, the split type lathe also comprises a tool rest guide rail and a tailstock guide rail, the headstock, the tailstock guide rail and the tool rest guide rail are of a split type structure, the headstock is installed on a headstock base, the tailstock guide rail parallel to the main shaft is laid on the ground at one end of a chuck of the headstock, a tailstock support connected with the tailstock guide rail in a sliding manner is installed on the tailstock guide rail, and the tailstock is installed on the tailstock support; a tool rest guide rail parallel to the tailstock guide rail is laid on the ground outside the headstock, a tool rest support frame in sliding connection with the tool rest guide rail is installed on the tool rest guide rail, and the tool rest is installed on the tool rest support frame.

Compared with the prior art, the invention adopting the technical scheme has the beneficial effects that:

simple structure, it is with low costs, the processing range is wide, and the split type structure of headstock, tailstock guide rail and knife rest guide rail is convenient for install, adjust, and the diameter of processing barrel passes through the height control of head of a bed and tailstock, can turn super large diameter barrel, and the length adjustment of tailstock guide rail is passed through to the length of processing barrel improves machining efficiency, reduce cost.

Further, the optimization scheme of the invention is as follows:

a modularized adjusting seat is arranged between the bed head base and the bed head box in a cushioning mode, the adjusting seat is of a box structure and is flat and box-shaped, grid holes are formed in two side plates of the adjusting seat, and mounting holes are formed in the edges of the two sides of the bottom surface plate and the edges of the two sides of the top surface plate of the adjusting seat.

The tool rest support frame comprises a seat frame, a bottom beam, an adjusting cushion block, a sliding rail, a longitudinal sliding plate and a transverse sliding plate, wherein the seat frame is U-shaped, the bottom beam is erected at two ends of the top surface of the seat frame, the modular adjusting cushion block is installed on the bottom beam, the sliding rail is installed on the adjusting cushion block, the transverse sliding plate is installed on the sliding rail and is in sliding connection with the sliding rail, the longitudinal sliding plate is in sliding connection with the transverse sliding plate, and the tool rest is installed on the longitudinal sliding plate.

The tailstock support comprises a bottom frame and a modularized adjusting frame, the adjusting frame is installed on the bottom frame, and the tailstock is installed on the adjusting frame.

Knife rest operation platform and tailstock operation platform are installed respectively to the top surface of the seat frame of knife rest support frame and the chassis of tailstock support, all enclose on knife rest operation platform and the tailstock operation platform and establish the railing.

Keep away from the one end of the head of a bed base of chuck sets up the motor recess, and the motor slide rail is installed to the lateral wall of motor recess, and the motor is installed on the motor slide rail.

And the tailstock guide rail and the tool rest guide rail are both longitudinally provided with a plurality of sliding grooves with inverted T-shaped sections.

The device also comprises a tip clamp, wherein the tip clamp is arranged at a cylinder opening at one tip end of the cylinder body and comprises a circular bearing seat and a supporting rod, the supporting rod is radially and fixedly connected to the outer circumferential surface of the bearing seat, and a thrust bearing matched with the tip is arranged in the bearing seat.

The upper rail surfaces of the tailstock guide rail and the tool rest guide rail are flush with the ground.

The tool rest comprises an adjusting seat, a tool apron and pressing plates, the adjusting seat is of a multi-stage step structure, the tool apron is arranged on the step surface of the adjusting seat, the two pressing plates are pressed on the tool apron, the pressing plates are connected with the adjusting seat through bolts, and a turning tool is installed at the front end of the tool apron.

Drawings

FIG. 1 is a front view of an embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a left side view of FIG. 1;

FIG. 4 is a basic schematic view of the headstock and tailstock rails of an embodiment of the present invention;

FIG. 5 is a top view of FIG. 4;

FIG. 6 is a left side view of FIG. 4;

FIG. 7 is a perspective view of an adjustment block in accordance with an embodiment of the present invention;

fig. 8 is a perspective view of a tailstock stand according to an embodiment of the present invention;

FIG. 9 is a perspective view of an adjustment bracket of an embodiment of the present invention;

fig. 10 is a perspective view of a tip holder of an embodiment of the present invention;

FIG. 11 is a perspective view of a toolholder support bracket according to an embodiment of the invention;

FIG. 12 is a front view of a toolholder support bracket according to an embodiment of the invention;

FIG. 13 is a perspective view of a mount and operator platform of an embodiment of the present invention;

FIG. 14 is a perspective view of a slide rail of an embodiment of the present invention;

FIG. 15 is a perspective view of a sill of an embodiment of the present invention;

FIG. 16 is a perspective view of a setting block of an embodiment of the present invention;

FIG. 17 is a perspective view of a cross slide of an embodiment of the present invention;

FIG. 18 is a perspective view of a longitudinal slide of an embodiment of the present invention;

fig. 19 is a perspective view of a tool holder according to an embodiment of the invention.

In the figure: a headstock 1; a main shaft 1-1; 1-2 of a chuck; 1-3 of a driven belt wheel; a bed head base 2; a motor groove 2-1; an adjusting seat 3; a tailstock guide rail 4; 4-1 of a base; a tailstock bracket 5; a chassis 5-1; 5-2 of an adjusting frame; 5-3 of a top plate; 5-4 parts of a railing; 5-5 of step steps; a tailstock 6; 6-1 of a tip; a bearing seat 6-2; 6-3 of a support rod; a tool holder guide rail 7; a seat frame 8; a connecting plate 8-1; a platform plate 8-2; a bottom beam 9; an upper wing plate 9-1; adjusting the cushion block 10; a lower wing plate 10-1; a slide rail 11; a vertical arm 11-1; a horizontal side plate 11-2; a rack 11-3; a hand wheel 11-4; a vertical plate 11-5; a transverse slide 12; a guide rail 12-1; a longitudinal slide 13; a jackscrew hole 13-1; a tool holder 14; an adjusting seat 14-1; a tool apron 14-2; a pressure plate 14-3; a motor slide rail 15; a motor 16; a cylinder 17; a belt 18.

Detailed Description

The invention is further described in detail below with reference to the drawings and examples.

Referring to fig. 1 to 3, the present embodiment is a split lathe for turning an ultra-large diameter cylinder, and the split lathe is mainly composed of a headstock 1, a tailstock guide rail 4, a tailstock support 5, a tailstock 6, a tool rest guide rail 7, a tool rest support frame, and a tool rest, wherein the headstock 1, the tailstock guide rail 4, and the tool rest guide rail 7 are in a split structure.

The headstock 1 is installed on headstock 2, headstock 2 is reinforced concrete component or welded component, in order to increase application range, set up modular adjusting seat 3 (shown in figure 7) between headstock 2 and headstock 1, adjusting seat 3 is the box structure, it is flat box-shaped, it sets up multiple height specification, the check hole is seted up to the both sides board of adjusting seat 3, the mounting hole is seted up to the bottom surface board of adjusting seat 3 and top panel both sides edge, adjusting seat 3 is connected with headstock 2 and headstock 1 through the bolt respectively. The number of the adjusting seats 3 is selected according to the diameter of the cylinder 17 or the combination of a plurality of adjusting seats 3 with different heights is adopted, the adjusting seats 3 adjust the height of the rotation center line of the main shaft 1-1 of the headstock 1, the machining range of the lathe is increased, and the lathe can turn the cylinder 17 with the ultra-large diameter.

The chuck 1-2 of the headstock 1 is a four-jaw chuck, the ground at one end of the chuck 1-2 is laid with a tailstock guide rail 4, the tailstock guide rail 4 is embedded into a ground foundation 4-1 (shown in figures 4-6), the tailstock guide rail 4 is parallel to the main shaft 1-1, the upper rail surface of the tailstock guide rail 4 is flush with the ground, and the tailstock guide rail 4 is longitudinally provided with a plurality of chutes with inverted T-shaped sections. The tailstock support 5 (shown in figure 8) is arranged on the tailstock guide rail 4 and is in sliding connection with the tailstock guide rail 4, the tailstock support 5 mainly comprises an underframe 5-1 and a modular adjusting frame 5-2 (shown in figure 9), the underframe 5-1 is a welding component, connecting holes are formed in two sides of a bottom plate of the underframe 5-1, and the tailstock support 5 is positioned and fixed through bolts arranged in a sliding groove of the tailstock guide rail 4. The adjusting frame 5-2 is a welding component and is provided with various height specifications, and mainly comprises a lower panel, a vertical plate and an upper panel, the adjusting frame 5-2 is provided with a tailstock 6, the number of the adjusting frames 5-2 or the combination of a plurality of adjusting frames 5-2 with different heights is selected according to the diameter of the cylinder 17, so that the rotating center line of a tip 6-1 of the tailstock 6 is superposed with the rotating center line of the cylinder 17, and the processing range of the lathe is enlarged.

The front end of the centre 6-1 is provided with a centre clamp (shown in figure 10), the centre clamp mainly comprises a bearing seat 6-2 and support rods 6-3, the bearing seat 6-2 is circular, 4 support rods 6-3 are radially welded on the outer circumferential surface of the bearing seat, the support rods 6-3 are uniformly distributed, the support rods 6-3 are made of H-shaped steel, a thrust bearing is arranged in the bearing seat 6-2, the end part of the centre 6-1 is matched with the thrust bearing, and when the centre clamp is used, the centre clamp is firstly arranged at the cylinder opening of the cylinder body 17.

The tailstock operating platform is arranged on the underframe 5-1 and mainly composed of a top plate 5-3, handrails 5-4 and step steps 5-5, the handrails 5-4 are respectively welded on the top plates 5-3 on the front side and the rear side of the tailstock 6, and the step steps 5-5 leading to the top plates 5-3 are welded on the outer side of the underframe 5-1.

A tool rest guide rail 7 is laid on the front side of the headstock 1, the tool rest guide rail 7 is embedded into a foundation 4-1 on the ground, the upper rail surface of the tool rest guide rail 7 is flush with the ground, a plurality of sliding grooves with inverted T-shaped sections are longitudinally formed in the tool rest guide rail 7, and the tool rest guide rail 7 is parallel to the tailstock guide rail 4. A tool rest support frame (shown in fig. 11-18) is arranged on the tool rest guide rail 7 and is connected with the tool rest guide rail 7 in a sliding manner. The tool rest support frame mainly comprises a seat frame 8, a bottom beam 9, an adjusting cushion block 10, a slide rail 11, a transverse slide plate 12 and a longitudinal slide plate 13, wherein the seat frame 8 is U-shaped, double-layer connecting plates 8-1 are welded at the bottoms of the left side and the right side of the seat frame 8, long grooves are formed in the connecting plates 8-1, bolts are installed in sliding grooves of the tool rest guide rail 7, and when the tool rest support frame slides to a turning position, the bolts fix the seat frame 8 on the tool rest guide rail 7 through the long grooves.

The two ends of the top surface of the seat frame 8 are respectively provided with a bottom beam 9, the bottom beams 9 are in threaded connection or welded with the two vertical arms of the seat frame 8, the left side and the right side of the upper part of the bottom beam 9 are respectively welded with an upper wing plate 9-1, and the upper wing plate 9-1 is provided with a connecting hole. Each bottom beam 9 is provided with a modularized adjusting cushion block 10, the adjusting cushion block 10 is provided with a plurality of height specifications, two sides of the bottom of the adjusting cushion block are provided with an overhanging lower wing plate 10-1, and the upper wing plate 9-1 of the bottom beam 9 is connected with the lower wing plate 10-1 of the adjusting cushion block 10 through bolts. The transverse sliding rail 11 is arranged on the adjusting cushion block 10, the sliding rail 11 is U-shaped, the transverse sliding plate 12 is arranged on the sliding rail 11 and is in sliding connection with the sliding rail 11, the longitudinal guide rail 12-1 is arranged on the transverse sliding plate 12, the cross section of the guide rail 12-1 is T-shaped, the longitudinal sliding plate 13 is arranged on the guide rail 12-1 and is in sliding connection with the guide rail 12-1, the longitudinal sliding plate 13 is provided with a T-shaped groove, the tool rest 14 is arranged on the longitudinal sliding plate 13, a plurality of jackscrew holes 13-1 are formed in two sides of the longitudinal sliding plate 13, and the longitudinal sliding plate 13 and the guide rail 12-1 are positioned through jackscrews arranged in the jackscrew holes 13-1.

The tool rest 14 mainly comprises an adjusting seat 14-1, a tool apron 14-2 and press plates 14-3 (shown in figure 19), the adjusting seat 14-1 is of a multi-stage step structure, the tool apron 14-2 is arranged on a step surface of the adjusting seat 14-1, the two press plates 14-3 are pressed on the tool apron 14-2, the press plates 14-3 are connected with the adjusting seat 14-1 through bolts, the front end of the tool apron 14-2 is a square part, three side surfaces of the square part are provided with long grooves, turning tools are installed in the long grooves, and bolts for pressing the turning tools are installed on upper groove plates of the long grooves.

The top of a vertical arm 11-1 of a sliding rail 11 is provided with an outward extending horizontal side plate 11-2, the bottom surface of the front horizontal side plate 11-2 is provided with a rack 11-3, the front end of a transverse sliding plate 12 is provided with a vertical plate 11-5, the rack 11-3 is meshed with a gear (not shown in the figure) on the inner side of the vertical plate 11-5, the gear is arranged on a gear shaft, the gear shaft is connected with the vertical plate 11-5 through a shaft seat, and the outer end of the gear shaft penetrates through the vertical plate 11-5 and is provided with a hand wheel 11-4.

The upper portion of the front side of the seat frame 8 is provided with a tool rest operating platform, the tool rest operating platform mainly comprises a platform plate 8-2, a railing 5-4 and a step tread 5-5, the platform plate 8-2 is welded with the seat frame 8, the railing 5-4 is welded on the platform plate 8-2, and the left side of the seat frame 8 is welded with the step tread 5-5 leading to the platform plate 8-2.

A motor groove 2-1 is formed in one end, far away from the chuck 1-2, of the bedside base 2, two motor sliding rails 15 are mounted on the side walls of the motor groove 2-1, a motor 16 is mounted on the motor sliding rails 15, the height of the motor 16 is adjusted by the motor sliding rails 15, and the motor 16 drives a driven belt pulley 1-3 of the bedside box 1 through a driving belt.

The using process of the embodiment is as follows: firstly, installing or welding a tip clamp on a cylinder opening at the right end of a cylinder 17, hoisting the cylinder 17 to the upper part of a lathe, installing the cylinder opening at the left end of the cylinder 17 on a chuck 1-2, clamping jaws of the chuck 1-2 tightly clamp the inner wall of the cylinder opening, moving a tailstock support 5, enabling a tip 6-1 to be matched with a thrust bearing of the tip clamp, and fastening a bolt between the tailstock support 5 and a tailstock guide rail 4; and moving the tool rest support frame to the position of a wheel belt 18, fastening a bolt between the seat frame 8 and the tool rest guide rail 7, realizing transverse feeding through a hand wheel 11-4, a gear and a rack 11-3, realizing longitudinal feeding through a longitudinal sliding plate 13 and a guide rail 12-1, and turning the wheel belt 18 or the barrel 17.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, which is defined in the appended claims.

Claims

1. The utility model provides a split type lathe for turning super large diameter barrel, includes headstock, motor, knife rest, tailstock, the main shaft installation chuck of headstock, tailstock installation and the coaxial top of main shaft, its characterized in that:

the machine tool comprises a machine tool head, a machine tool tail guide and a machine tool tail guide, wherein the machine tool head, the machine tool tail guide and the machine tool tail guide are of a split structure;

a modularized adjusting seat is arranged between the bedside base and the bedside box in a cushioning mode, the adjusting seat is of a box body structure and is of a flat box shape, grid holes are formed in two side plates of the adjusting seat, mounting holes are formed in the edges of the two sides of a bottom plate and the top plate of the adjusting seat, a motor groove is formed in one end, away from the chuck, of the bedside base, a motor sliding rail is installed on the side wall of the motor groove, and the motor is installed on the motor sliding rail;

a tool rest guide rail parallel to the tailstock guide rail is laid on the ground outside the headstock, a tool rest support frame connected with the tool rest guide rail in a sliding manner is installed on the tool rest guide rail, and the tool rest is installed on the tool rest support frame; the tool rest support frame comprises a seat frame, a bottom beam, an adjusting cushion block, a slide rail, a longitudinal slide plate and a transverse slide plate, wherein the seat frame is U-shaped, the bottom beam is erected at two ends of the top surface of the seat frame, the modular adjusting cushion block is installed on the bottom beam, the slide rail is installed on the adjusting cushion block, the transverse slide plate which is connected with the slide rail in a sliding manner is installed on the slide rail, the longitudinal slide plate is connected with the transverse slide plate in a sliding manner, and a tool rest is installed on the longitudinal slide plate;

the tool rest comprises an adjusting seat, tool apron and pressing plates, the adjusting seat is of a multi-stage step structure, the tool apron is arranged on the step surface of the adjusting seat, the two pressing plates are pressed on the tool apron, the pressing plates are connected with the adjusting seat through bolts, and a turning tool is installed at the front end of the tool apron;

the tailstock support comprises a bottom frame and a modularized adjusting frame, the adjusting frame is arranged on the bottom frame, and the tailstock is arranged on the adjusting frame;

the center fixture is arranged at a cylinder opening at one end of a center of the cylinder body and comprises a circular bearing seat and a supporting rod, the supporting rod is fixedly connected to the outer circumferential surface of the bearing seat in the radial direction, and a thrust bearing matched with the center is arranged in the bearing seat.

2. The split lathe for turning ultra-large diameter cylinders of claim 1, wherein: knife rest operation platform and tailstock operation platform are installed respectively to the top surface of the seat frame of knife rest support frame and the chassis of tailstock support, all enclose on knife rest operation platform and the tailstock operation platform and establish the railing.

3. The split lathe for turning oversized-diameter cylinders according to claim 1, characterized in that: and the tailstock guide rail and the tool rest guide rail are both longitudinally provided with a plurality of sliding grooves with inverted T-shaped sections.

4. The split lathe for turning ultra-large diameter cylinders of claim 1, wherein: the upper rail surfaces of the tailstock guide rail and the tool rest guide rail are flush with the ground.