CN201205599Y - Full-automatic numerically control lathe for metal tube material - Google Patents
Full-automatic numerically control lathe for metal tube material Download PDFInfo
- Publication number
- CN201205599Y CN201205599Y CNU2008200224017U CN200820022401U CN201205599Y CN 201205599 Y CN201205599 Y CN 201205599Y CN U2008200224017 U CNU2008200224017 U CN U2008200224017U CN 200820022401 U CN200820022401 U CN 200820022401U CN 201205599 Y CN201205599 Y CN 201205599Y
- Authority
- CN
- China
- Prior art keywords
- assembly
- cylinder
- receiver
- metal tube
- support
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Landscapes
- Turning (AREA)
Abstract
The utility model provides an automatic numerically controlled metal tube-cutting lathe, which comprises a main unit and an auxiliary unit. The lathe has the following characteristics: a lathe body of the main unit is provided with a main motor, a numerical control system operation box, an electric equipment control box, a spindle box assembly, a front and rear tool post assembly, a tool post-positioning assembly, a material-receiving manipulator, a material-receiving plate, etc.; wherein, the electric equipment control box is connected with the numerical control system operation box and controlled by the numerical control system operation box to operate; a front tool post assembly and a rear tool post assembly are symmetrically arranged on both sides of the front end of the spindle box assembly; the tool post-positioning assembly is positioned on the right front end of the spindle box assembly; the material-receiving manipulator is arranged in front of the spindle box assembly; part of the material-receiving plate is positioned under the material-receiving manipulator; the auxiliary unit comprises a feeder and a storer; the front end of the feeder corresponds to the rear end of the spindle box assembly; and the storer is arranged corresponding to the feeder. The lathe, which realizes the automatic control of the metal tube cutting process, has the advantages of high automation degree, high production efficiency, strong cutting rigidity, stable processing dimension, high raw material utilization rate, simple and convenient operation, etc.
Description
Technical field
The utility model relates to a kind of metal tube material and cuts off the full-automatic numerical control lathe, belongs to field of machining.
Background technology
Process equipment and processing technology that metal current pipe material cuts off, the general common apparatus such as sawing machine, milling machine, engine lathe that adopt, carry out hilted broadsword by artificial loading and unloading and cut off processing by part, exist problems such as production efficiency is low, the processing dimension scattered error is big, utilization rate of raw materials is low, labour intensity height, become this manufacture field of restriction and raise labour productivity, improve the product size precision, improve utilization rate of raw materials, alleviate the bottleneck of operator's labour intensity.With bearing ring blanking operation is example: at present, adopting the cut-out operation of Gr15 tube material is main process equipment with instrument lathe substantially, adopts hilted broadsword to cut off the production technology of processing by part; Industries such as mechanical basic part, automobile and motor parts-all metal tube material that relates to cut off the operation of processing for another example, also are to carry out hilted broadsword with common apparatus to cut off processing by part basically.Therefore, existing manufacturing and processing equipment and processing technology can't satisfy the needs that the enterprise that carries out metal tube material cut-out processing in enormous quantities at present constantly promotes production capacity and enlarges enterprise development.
Summary of the invention
The purpose of this utility model is intended to overcome the deficiency that exists in the prior art, provides the metal tube material of a kind of high efficiency, high accuracy, saving raw material and the good type of environment to cut off the full-automatic numerical control lathe.
The technical solution of the utility model is: a kind of metal tube material cuts off the full-automatic numerical control lathe, comprise main frame and random, characteristics are: main frame comprises lathe bed, lathe bed is provided with main motor, the digital control system control box, electric appliance control box, the main spindle box assembly, the front rest assembly, the back tool rest assembly, the positioned tool post assembly, manipulator connects material, the receiver part, wherein, electric appliance control box is connected with the digital control system control box and by its control operation, the front rest assembly is connected with lathe bed with the both sides that back tool rest assembly symmetry is located at main spindle box assembly front end, the positioned tool post assembly is positioned at the positive front end of main spindle box assembly, be connected with lathe bed by bent plate, the manipulator that connects material is movably arranged on the place ahead of main spindle box assembly, be connected with lathe bed by manipulator support, receiver partly is positioned at the below of the manipulator that connects material, and is connected with lathe bed by the receiver support; Random comprises feeder and storing machine, and the front end of feeder is corresponding with the clamping cylinder of main spindle box assembly rear end, the corresponding feeder setting of storing machine; Also be provided with pneumatic part and Hydraulic Station, pneumatic part is connected with cylinder in positioned tool post assembly, the manipulator that connects material, receiver part, feeder and the storing machine respectively, and Hydraulic Station is connected with oil cylinder on main spindle box assembly and the positioned tool post assembly respectively.
Described main spindle box assembly comprises main spindle box, be provided with the main shaft of hollow type in the main spindle box, main shaft is provided with the main motor pulley that is connected with main motor, establish trombone slide in the main shaft, connect rotary hollow clamping cylinder in the rear end of main shaft, its hollow piston is connected with trombone slide, is provided with spring perch at the front end of main shaft, its collet is connected with trombone slide, and the front end of spring perch is provided with tool setting device.
Described front rest assembly is identical with the structure of back tool rest assembly, has the lower guideway assembly, establish the middle slide plate assembly on the lower guideway assembly, establish upper slide on the middle slide plate assembly, establish guide rail on the upper slide, guide rail is provided with the cutter platform, the cutter platform is provided with cutter, cutter on the forward and backward knife rest assembly is and is symmetrical arranged, and is provided with ball screw assembly, in the lower guideway assembly, and ball screw assembly, connects servomotor by diaphragm coupling.
Described positioned tool post assembly has bent plate, bent plate is provided with upper slide, the upper slide lower end connects cylinder, be provided with positional cylinder in the upper slide upper end, connect positioning supporting frame on the positional cylinder, positioning supporting frame is corresponding with the spring perch position of front-end of spindle, and the positioned tool post assembly is connected with lathe bed by bent plate.
The described manipulator that connects material comprises manipulator support, and manipulator support is provided with base plate, and base plate is provided with the lifting cylinder of above-below direction motion, promotes the cylinder that connects material that the cylinder lower end is connected with the fore-and-aft direction motion, and the cylinder that connects material is provided with the bar that connects material.
Described receiver partly comprises the receiver support, and the receiver support is provided with the receiver carriage, is movably equipped with receiver on the receiver carriage, and the receiver below is connected with the receiver cylinder.
Described feeder comprises support, support is provided with material supporting rack, material supporting rack is provided with charging ram, charging ram is connected with the feeding motor by chain, sprocket wheel, is provided with the cylinder support on support, and the cylinder support is provided with the roller cylinder, the roller cylinder is provided with roller, also be provided with oblique retainer cylinder on the cylinder support, tiltedly the front end of retainer cylinder is provided with V-type retainer piece, and the front end of material supporting rack is over against the hollow cavity of clamping cylinder.Also can be provided with brake cylinder on support, the upper end of brake cylinder is provided with brake disc, and brake disc is connected by chain.
Described storing machine comprises storage rack, and storage rack is provided with fixing baffle plate, is provided with ejector beam below baffle plate, is connected with the ejector beam cylinder on the ejector beam, and storage rack is arranged in relevant position, material supporting rack side.
Compared with the prior art, the utility model can accurately be controlled the feed speed of knife rest before and after the speed of mainshaft and the control by digital control system control box, electric appliance control box, and the row's of utilization cutter mode realizes that combination to the metal tube material is to cutting processing; Adopt hydraulic system drive positional cylinder, clamping cylinder, spring perch realize to workpiece axial location, clamp automatically, unclamp automatically; Pay-off on employing pneumatic system, the mechanical chain wheel system driving random and the material-receiving device on the main frame are realized self-feeding and automatic material connection to workpiece.All manufacturing procedures adopt digital control systems to carry out programme-control, thus realize to the metal tube material self-feeding, axial location, clamp automatically, the full-automatic circulation of whole process such as cutting automatically, automatic blanking.Therefore, this lathe has automaticity height, production efficiency height, the cutting rigidity is strong, processing dimension stable, characteristics such as utilization rate of raw materials is high, simple to operation, labour intensity is low, production environment sanitation and hygiene.In the turning processing that the metal tube material of mechanical basic part processing industry, automobile and motorcycle component processing industry, gas engine part processing industry and agricultural machinery component and parts processing industry cuts off, has the vast market promotion prospect.
Below in conjunction with accompanying drawing the utility model is done at length and to be explained.
Description of drawings
Fig. 1: structural representation of the present utility model;
Fig. 2: the structural representation of the utility model host machine part;
The A of Fig. 3: Fig. 2 is to view;
Fig. 4: the structural representation of the utility model main spindle box assembly;
Fig. 5: the structural representation of the utility model knife rest assembly;
The side view of Fig. 5 .1: Fig. 5;
The vertical view of Fig. 5 .2: Fig. 5;
Fig. 6: the structural representation of the utility model positioned tool post assembly;
The side view of Fig. 6 .1: Fig. 6;
The vertical view of Fig. 6 .2: Fig. 6;
Fig. 7: the connect material structural representation of manipulator of the utility model;
The side view of Fig. 7 .1: Fig. 7;
Fig. 8: the structural representation of the utility model receiver part;
Fig. 9: the structural representation of the utility model feeder;
Figure 10: the structural representation of the utility model storing machine;
The side view of Figure 10 .1: Figure 10;
Figure 11: the structural representation of the utility model electric appliance control box.
The explanation of accompanying drawing drawing:
Fig. 1 to Fig. 3: 1 main spindle box assembly, 2 front rest assemblies, 3 back tool rest assemblies, 4 positioned tool post assemblies, 5 main motors, 6 lathe beds, 7 manipulators that connect material, 8 receiver parts, 9 Hydraulic Stations, 11 pneumatic part, 13 digital control system control boxs, 14 electric appliance control boxes, 16 Scrap-removing machines, 17 feed bins, 18 feeders, 19 storing machines;
Fig. 4: 4-1 spring perch, 4-2 main spindle box, 4-3 location bearing, 4-4 disc, 4-5 main shaft, 4-6 alignment bearing, 4-7 master's motor pulley, 4-8 trombone slide, 4-9 clamping cylinder, 4-10 tool setting device;
Fig. 5 to Fig. 5 .2:5-1 lower guideway assembly, 5-2 middle slide plate assembly, 5-3 upper slide, 5-4 guide rail, 5-5 micromatic setting, 5-7 diaphragm coupling, 5-8 ball screw assembly,, 5-9 cutter platform, 5-10 cutter, 5-12 servomotor;
Fig. 6 to Fig. 6 .2:6-1 bent plate, 6-2 cylinder, 6-3 positioning supporting frame, 6-4 upper slide, 6-5 positional cylinder;
Fig. 7 to Fig. 7 .1:7-1 base plate, the 7-2 guide post, the 7-3 buffer, 7-4 promotes cylinder, the 7-5 cylinder that connects material, the 7-6 bar that connects material, 7-7 manipulator support;
Fig. 8: 8-1 receiver carriage, 8-2 receiver, 8-3 receiver cylinder, 8-4 receiver support;
Fig. 9: 9-1 support, 9-2 roller cylinder, 9-3 roller, 9-4 feeding motor, 9-5 sprocket wheel, 9-6 chain, 9-7 material supporting rack, 9-8 charging ram, the oblique retainer cylinder of 9-9,9-10V type retainer piece, 9-11 brake cylinder, 9-12 brake disc, 9-13 cylinder support;
Figure 10 to Figure 10 .1:10-1 storage rack, 10-2 ejector beam cylinder, 10-3 ejector beam, 10-4 baffle plate;
Figure 11: 11-1 digital control system control box, 11-2CNC system control box, 11-3 digital control system guidance panel, the 11-4 electric appliance control box, 11-5 power switch, 11-6 distribution board, 11-7X is to servo-driver, and 11-8Z is to servo-driver, the 11-9 variable-frequency governor, the 11-10 binding post, the 11-11 auxiliary reclay, the 11-12 electrothermal relay, 11-13 separates winding transformer, the 11-14 A.C. contactor, 11-15 driving power transformer.
The specific embodiment
Referring to Fig. 1 to Figure 11, the utility model is made up of main frame and random two large divisions, and main frame comprises lathe bed 6, and lathe bed 6 is a box casting structure, is the basic pedestal of host machine part.Installing main motor 5, digital control system control box 13 and electric appliance control box 14 on lathe bed 6, electric appliance control box 14 and digital control system control box 13 are connected by lead.
Main spindle box assembly 1 is installed above lathe bed 6, comprise a main spindle box 4-2, be provided with main shaft 4-5 in the main spindle box 4-2, main shaft 4-5 is a hollow type front end location structure, main shaft 4-5 is provided with location bearing 4-3, alignment bearing 4-6, location bearing 4-3 is a taper roll bearing, alignment bearing 4-6 is a Biserial cylindrical roller bearing, and be equipped with independent oil lubrication device disc 4-4, the main shaft heat that causes after the main spindle box temperature rise is extended and main shaft bearing lubricates problems such as cleaning thereby efficiently solve, therefore can guarantee the required precision of workpiece size, prolong the service life of bearing, main shaft 4-5 also has enough cutting rigidity, and can satisfy raw material passing through from rear-end of spindle.The main motor pulley 4-7 of fixed installation is connected with main motor 5 by belt on main shaft 4-5.Trombone slide 4-8 is set in the main shaft 4-5, the rear end fixed installation clamping cylinder 4-9 of main shaft 4-5, clamping cylinder 4-9 is the hollow type rotary oil cylinder, its hollow piston is connected with trombone slide 4-8, front end at main shaft 4-5 is provided with spring perch 4-1, spring perch 4-1 is single awl foward-push structure, required precision in the time of can guaranteeing the workpiece clamping, its collet is connected with trombone slide 4-8, grip block is edge lobe formula structure, carry out easy with convenient workpiece to different-diameter, change apace, the front end of main shaft 4-5 also is provided with tool setting device 4-10, can guarantee the accurately errorless of knives tool while clamping position, thereby save the service working time of changing in the different-diameter metal tube material process, increase work efficiency effectively.
Positioned tool post assembly 4 is positioned at the positive front end of main spindle box assembly 1, and it has bent plate 6-1, is installed on the lathe bed 6 by bent plate 6-1.Bent plate 6-1 is provided with upper slide 6-4, upper slide 6-4 lower end connects cylinder 6-2, be provided with positional cylinder 6-5 in upper slide 6-4 upper end, positional cylinder 6-5 goes up and connects positioning supporting frame 6-3, and positioning supporting frame 6-3 is corresponding with the spring perch 4-1 position of main shaft 4-5 front end.
Connect material manipulator 7 and receiver part 8 also are installed on lathe bed 6.The manipulator 7 that connects material is installed on the lathe bed 6 by the manipulator support 7-7 that connects material, manipulator support 7-7 is provided with base plate 7-1, base plate 7-1 is provided with and promotes cylinder 7-4, promote cylinder 7-4 and do the above-below direction motion by bilateral guide post 7-2 guiding, position up and down at base plate 7-1 also is provided with buffer 7-3, the impulsive force when promoting cylinder 7-4 work in order to overcome; Promote the cylinder 7-5 that connects material that cylinder 7-4 lower end is connected with the fore-and-aft direction motion, the cylinder 7-5 that connects material is provided with the bar 7-6 that connects material, and is positioned at the spring perch 4-1 the place ahead on the main spindle box assembly 1 during the bar 7-6 that connects material work.Receiver part 8 is positioned at the lower left of the manipulator 7 that connects material, be mounted on the lathe bed 6 by receiver support 8-4, receiver support 8-4 is provided with receiver carriage 8-1, and receiver carriage 8-1 goes up the movable receiver 8-2 that installs, and receiver 8-2 bottom is equipped with receiver cylinder 8-3.
Random comprises feeder 18 and storing machine 19.Feeder 18 has support 9-1, and support 9-1 is provided with material supporting rack 9-7, and material supporting rack 9-7 goes up the movable charging ram 9-8 that installs, and charging ram 9-8 is connected with feeding motor 9-4 by chain 9-6, sprocket wheel 9-5.Be positioned on the support 9-1 material supporting rack 9-7 below cylinder support 9-13 is set, cylinder support 9-13 is provided with 4 roller cylinder 9-2, roller cylinder 9-2 go up to install roller 9-3.Oblique retainer cylinder 9-9 also is set on cylinder support 9-13, and tiltedly the front end of retainer cylinder 9-9 is provided with V-type retainer piece 9-10; Also brake cylinder 9-11 can be set on support 9-1, brake cylinder 9-11 upper end is provided with brake disc 9-12, and brake disc 9-12 is connected by chain 9-6; The front position of material supporting rack 9-7 is over against the hollow cavity of clamping cylinder 4-9.Storing machine 19 comprises storage rack 10-1, and storage rack 10-1 is provided with fixed dam 10-4, and ejector beam 10-3 is set below baffle plate 10-4, is connected with ejector beam cylinder 10-2 on the ejector beam 10-3.During work, storage rack 10-1 (lower position of baffle plate 10-4) is abutted against mutually with material supporting rack 9-7.
The utility model also is provided with pneumatic part 11 and Hydraulic Station 9.Pneumatic part 11 can be used air compressor, air compressor machine is connected with cylinder in above-mentioned positioned tool post assembly 4, the manipulator 7 that connects material, receiver part 8, feeder 18 and the storing machine 19 respectively, Hydraulic Station 9 by magnetic valve respectively with main spindle box assembly 1 in clamping cylinder 4-9, spring perch 4-1 and the positional cylinder 6-5 in the positioned tool post assembly 4 be connected.
Be provided with digital control system control box 11-1 in the electric appliance control box 14, CNC digital control system 11-2, digital control system guidance panel 11-3, electric appliance control box 11-4, to servo-driver 11-8, variable-frequency governor 11-9, binding post 11-10, auxiliary reclay 11-11, electrothermal relay 11-12, separation winding transformer 11-13, A.C. contactor 11-14, driving power transformer 11-15 etc., all electric systems are all by the digital control system control operation to servo-driver 11-7, Z for power switch 11-5, distribution board 11-6, X.
Brief description is the course of work once:
All action can use CNC digital control system (interior system programmable controller PLC) to carry out program control.
Start power switch 11-5, by the parameters of the input of the CNC digital control system 11-2 (interior system programmable controller PLC) in the digital control system control box 13, instruction electrical equipment, machinery, hydraulic pressure, each funtion part such as pneumatic enter automatic mode.
Ejector beam cylinder 10-2 on the storing machine 19 promotes ejector beam 10-3, storage rack 10-1 is gone up the metal tube material that stores pushed away baffle plate 10-4 in order, and landing is to the material supporting rack 9-7 of feeder 18 automatically.Roller cylinder 9-2 promotes roller 9-3 rise and holds the metal tube material, drive chain 9-6, sprocket wheel 9-5 by feeding motor 9-4 and drive charging ram 9-8, the metal tube material is advanced into the positioning supporting frame 6-3 position of positioned tool post assembly 4 from the rear end of clamping cylinder 4-9 through main shaft 4-5, (trombone slide 4-8), spring perch 4-1.Cylinder 6-2 on the positioned tool post assembly has driven upper slide 6-4 rising at this moment, and Hydraulic Station 9 drives positional cylinder 6-5 and by positioning supporting frame 6-3 the metal tube material carried out spacing and auxiliary jacking.Hydraulic Station drives clamping cylinder 4-9 promotion trombone slide 4-8 drive spring perch 4-1 simultaneously the metal tube material is clamped.At this moment, the feeding motor 9-4 stall on the material supporting rack 9-7, chain 9-6, sprocket wheel 9-5 stop transmission, and carry out auxiliary brake by brake cylinder 9-11 promotion brake disc 9-12, and charging ram 9-8 suspends pusher.Main motor 5 drive shaft 4-5 work, servomotor 5-12 drive ball screw assembly, 5-8 drives forward and backward knife rest assembly and carries out fast feed and work feed simultaneously, by the row's cutter on the cutter platform 5-9 steel pipe is made up cutting.At this moment, positional cylinder 6-5 on the positioned tool post assembly 4 drives positioning supporting frame 6-3 and returns, cylinder 6-2 drives upper slide 6-4 and returns initial point (declines), and the metal tube material workpiece of the lifting cylinder 7-4 on the manipulator 7 that connects material simultaneously descends, the cylinder 7-5 that connects material promotion connects material bar 7-6 passes spring perch 4-1 front end connects material.Cutting is when finishing, and the cylinder 7-5 that connects material returns initial point, promotes the cylinder 7-4 initial point that rises back, and receiver cylinder 8-3 promoted receiver 8-2 the part that has cut off on the bar 7-6 that connects material was connected material this moment, and receiver cylinder 8-3 promotion receiver 8-2 returns initial point after connecting material.The following of receiver part 8 can be placed feed bin 17 in advance, stores the part after processing.
Main shaft 4-5 stall, clamping cylinder 4-9 pulling spring perch 4-1 unclamps, and charging ram 9-8 proceeds pusher work, and next fabrication cycles begins.After the whole completion of processing of steel pipe, charging ram 9-8 returns initial point, again by 19 self-feedings of storing machine, carries out the cyclic process of next root steel pipe.
Main shaft is by the frequency conversion master driven by motor work of digital control system by variable-frequency governor control, by to speed of mainshaft infinitely variable speeds with to the control of knife rest feed speed step-less adjustment, the permanent linear speed when workpiece cut can be realized, thereby the requirement on machining accuracy of work piece surface roughness and perpendicularity can be guaranteed.
In addition, lathe is configurable Scrap-removing machine 16, can realize the automatic circulation and the automatic chip removal of cutting fluid; All right configure dedicated knife sharpener carries out sharpening with the handled easily person to special-purpose cutter blades.
Through experiment, use the utility model to cut off the pipe material, processing work diameter ¢ 18mm-¢ 110mm, workpiece height 6mm-50mm, maximum workpiece length can reach 6m, the cutting gap of cutter can be controlled in 1.2mm-1.4mm scope, every performance indications all can satisfy the requirement of processing technology, and technical parameters such as the surface roughness of workpiece, circularity, perpendicularity all improve a lot, No. one time clamping can cut off 6-12 processing parts simultaneously automatically, improve production efficiency, had good marketing advantage.
Claims (9)
1, a kind of metal tube material cuts off the full-automatic numerical control lathe, comprise main frame and random, it is characterized in that: main frame comprises lathe bed (6), lathe bed (6) is provided with main motor (5), digital control system control box (13), electric appliance control box (14), main spindle box assembly (1), front rest assembly (2), back tool rest assembly (3), positioned tool post assembly (4), manipulator (7) connects material, receiver part (8), wherein, electric appliance control box (14) is connected with digital control system control box (13) and by its control operation, front rest assembly (2) is connected with lathe bed (6) with the both sides that both symmetries of back tool rest assembly (3) are located at main spindle box assembly (1) front end, positioned tool post assembly (4) is positioned at the positive front end of main spindle box assembly (1), be connected with lathe bed (6) by bent plate (6-1), the manipulator (7) that connects material is movably arranged on the place ahead of main spindle box assembly (1), be connected with lathe bed (6) by manipulator support (7-7), receiver part (8) is positioned at the below of the manipulator that connects material (7), be connected with lathe bed (6) by receiver support (8-4)
Random comprises feeder (18) and storing machine (19), and the front end of feeder (18) is corresponding with the clamping cylinder (4-9) of main spindle box assembly (1) rear end, and the corresponding feeder of storing machine (19) (18) is provided with,
Also be provided with pneumatic part (11) and Hydraulic Station (9), pneumatic part (11) is connected with cylinder in positioned tool post assembly (4), the manipulator that connects material (7), receiver part (8), feeder (18) and the storing machine (19) respectively, and Hydraulic Station (9) is connected with oil cylinder on main spindle box assembly (1) and the positioned tool post assembly (4) respectively.
2, metal tube material according to claim 1 cuts off the full-automatic numerical control lathe, it is characterized in that, described main spindle box assembly (1) comprises main spindle box (4-2), be provided with the main shaft (4-5) of hollow type in the main spindle box (4-2), main shaft (4-5) is provided with the main motor pulley (4-7) that is connected with main motor (5), establish trombone slide (4-8) in the main shaft (4-5), connect rotary hollow clamping cylinder (4-9) in the rear end of main shaft (4-5), its hollow piston is connected with trombone slide (4-8), front end at main shaft (4-5) is provided with spring perch (4-1), its collet is connected with trombone slide (4-8), and the front end of spring perch (4-1) is provided with tool setting device (4-10).
3, metal tube material according to claim 1 cuts off the full-automatic numerical control lathe, it is characterized in that, described front rest assembly (2) is identical with the structure of back tool rest assembly (3), has lower guideway assembly (5-1), establish middle slide plate assembly (5-2) on the lower guideway assembly (5-1), establish upper slide (5-3) on the middle slide plate assembly (5-2), establish guide rail (5-4) on the upper slide (5-3), guide rail (5-4) is provided with cutter platform (5-9), cutter platform (5-9) is provided with cutter (5-10), before, cutter on the back tool rest assembly (5-10) is and is symmetrical arranged, be provided with ball screw assembly, (5-8) in lower guideway assembly (5-1), ball screw assembly, (5-8) connects servomotor (5-12) by diaphragm coupling (5-7).
4, metal tube material according to claim 1 cuts off the full-automatic numerical control lathe, it is characterized in that, described positioned tool post assembly (4) has bent plate (6-1), bent plate (6-1) is provided with upper slide (6-4), upper slide (6-4) lower end connects cylinder (6-2), be provided with positional cylinder (6-5) in upper slide (6-4) upper end, positional cylinder (6-5) is gone up and is connected positioning supporting frame (6-3), positioning supporting frame (6-3) is corresponding with spring perch (4-1) position of main shaft (4-5) front end, and positioned tool post assembly (4) is connected with lathe bed (6) by bent plate (6-1).
5, metal tube material according to claim 1 cuts off the full-automatic numerical control lathe, it is characterized in that, the described manipulator that connects material (7) comprises manipulator support (7-7), manipulator support (7-7) is provided with base plate (7-1), base plate (7-1) is provided with the lifting cylinder (7-4) of above-below direction motion, promote the cylinder that connects material (7-5) that cylinder (7-4) lower end is connected with the fore-and-aft direction motion, the cylinder that connects material (7-5) is provided with the bar that connects material (7-6).
6, metal tube material according to claim 1 cuts off the full-automatic numerical control lathe, it is characterized in that, described receiver part (8) comprises receiver support (8-4), receiver support (8-4) is provided with receiver carriage (8-1), be movably equipped with receiver (8-2) on the receiver carriage (8-1), receiver (8-2) below is connected with receiver cylinder (8-3).
7, metal tube material according to claim 1 cuts off the full-automatic numerical control lathe, it is characterized in that, described feeder (18) comprises support (9-1), support (9-1) is provided with material supporting rack (9-7), material supporting rack (9-7) is provided with charging ram (9-8), charging ram (9-8) is by chain (9-6), sprocket wheel (9-5) is connected with feeding motor (9-4), on support (9-1), be provided with cylinder support (9-13), cylinder support (9-13) is provided with roller cylinder (9-2), roller cylinder (9-2) is provided with roller (9-3), on cylinder support (9-13), also be provided with oblique retainer cylinder (9-9), tiltedly the front end of retainer cylinder (9-9) is provided with V-type retainer piece (9-10), and the front end of material supporting rack (9-7) is over against the hollow cavity of clamping cylinder (4-9).
8, metal tube material according to claim 7 cuts off the full-automatic numerical control lathe, it is characterized in that, be provided with brake cylinder (9-11) on support (9-1), the upper end of brake cylinder (9-11) is provided with brake disc (9-12), and brake disc (9-12) is connected by chain (9-6).
9, metal tube material according to claim 1 cuts off the full-automatic numerical control lathe, it is characterized in that, described storing machine (19) comprises storage rack (10-1), storage rack (10-1) is provided with fixing baffle plate (10-4), be provided with ejector beam (10-3) in the below of baffle plate (10-4), be connected with ejector beam cylinder (10-2) on the ejector beam (10-3), storage rack (10-1) is arranged in material supporting rack (9-7) relevant position, side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2008200224017U CN201205599Y (en) | 2008-05-09 | 2008-05-09 | Full-automatic numerically control lathe for metal tube material |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2008200224017U CN201205599Y (en) | 2008-05-09 | 2008-05-09 | Full-automatic numerically control lathe for metal tube material |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201205599Y true CN201205599Y (en) | 2009-03-11 |
Family
ID=40464667
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNU2008200224017U Expired - Lifetime CN201205599Y (en) | 2008-05-09 | 2008-05-09 | Full-automatic numerically control lathe for metal tube material |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201205599Y (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102699350A (en) * | 2012-05-31 | 2012-10-03 | 宁波市鄞州壹发机床有限公司 | Full-automatic numerically control lathe |
CN102847742A (en) * | 2012-08-30 | 2013-01-02 | 上海大俊凯电器科技有限公司 | Molding controlling method and system for long U-shaped tube |
CN102909232A (en) * | 2012-08-30 | 2013-02-06 | 上海大俊凯电器科技有限公司 | Long U type pipe processing molding device |
CN104400012A (en) * | 2014-10-23 | 2015-03-11 | 芜湖市泰能电热器具有限公司 | Aluminum pipe edge trimming machine tool |
CN104785606A (en) * | 2015-03-27 | 2015-07-22 | 浙江顶康科技有限公司 | Full-automatic pipe thrusting machine |
CN106406222A (en) * | 2015-08-03 | 2017-02-15 | 科华控股股份有限公司 | Interrupted electrical control circuit capable of setting chip conveyor operation and pause time |
CN107511710A (en) * | 2016-06-16 | 2017-12-26 | 上海瓦姆石油天然气管业有限公司 | A kind of pipe fitting automatic cut-to-length feed arrangement for Digit Control Machine Tool |
-
2008
- 2008-05-09 CN CNU2008200224017U patent/CN201205599Y/en not_active Expired - Lifetime
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102699350A (en) * | 2012-05-31 | 2012-10-03 | 宁波市鄞州壹发机床有限公司 | Full-automatic numerically control lathe |
CN102699350B (en) * | 2012-05-31 | 2014-11-19 | 宁波市鄞州壹发机床有限公司 | Full-automatic numerically control lathe |
CN102847742A (en) * | 2012-08-30 | 2013-01-02 | 上海大俊凯电器科技有限公司 | Molding controlling method and system for long U-shaped tube |
CN102909232A (en) * | 2012-08-30 | 2013-02-06 | 上海大俊凯电器科技有限公司 | Long U type pipe processing molding device |
CN102909232B (en) * | 2012-08-30 | 2017-06-06 | 上海大俊凯电器科技股份有限公司 | U-tube machine-shaping device long |
CN104400012A (en) * | 2014-10-23 | 2015-03-11 | 芜湖市泰能电热器具有限公司 | Aluminum pipe edge trimming machine tool |
CN104400012B (en) * | 2014-10-23 | 2017-01-18 | 芜湖市泰能电热器具有限公司 | Aluminum pipe edge trimming machine tool |
CN104785606A (en) * | 2015-03-27 | 2015-07-22 | 浙江顶康科技有限公司 | Full-automatic pipe thrusting machine |
CN106406222A (en) * | 2015-08-03 | 2017-02-15 | 科华控股股份有限公司 | Interrupted electrical control circuit capable of setting chip conveyor operation and pause time |
CN106406222B (en) * | 2015-08-03 | 2019-08-27 | 科华控股股份有限公司 | A kind of interrupted electric control loop that can set Scrap-removing machine operation and dead time |
CN107511710A (en) * | 2016-06-16 | 2017-12-26 | 上海瓦姆石油天然气管业有限公司 | A kind of pipe fitting automatic cut-to-length feed arrangement for Digit Control Machine Tool |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN201205599Y (en) | Full-automatic numerically control lathe for metal tube material | |
CN211052872U (en) | Dual-purpose optical fiber laser cutting machine for tube plate | |
CN101486104A (en) | Full automatic bearing ring lathe | |
JP2022543857A (en) | 5-axis vertical processing system that automatically supplies and discharges materials | |
CN106903515B (en) | Full-automatic three-point stamping equipment for circular tube parts | |
CN203390204U (en) | Automatic rolling front feeding device for numerical control lathe | |
CN101767209A (en) | Automatic feeding device for numerically controlled lathe | |
CN103111633B (en) | Two-head lathe special for hydraulic pipe | |
CN201659291U (en) | Automatic loading device for numerically controlled lathe | |
CN212543603U (en) | Full-automatic production line for finish machining of rotor | |
CN206253706U (en) | A kind of full-automatic slotter | |
CN202147064U (en) | Automatic feeding and receiving tapping machine | |
CN113927303B (en) | Workpiece drilling and tapping system | |
CN203316806U (en) | Full-automatic flatness milling machine | |
CN211638386U (en) | Motor shaft hole processing equipment | |
CN212735276U (en) | High-precision double-spindle double-tool tower machine tool | |
CN201279724Y (en) | Full-automatic valve collet groove grinding mill | |
CN207735672U (en) | A kind of multistation broaching machine with tool magazine | |
CN110497007B (en) | Multi-station automatic back planing machine | |
CN104440091A (en) | Three-in-one punching and milling machine for adapter | |
CN203649907U (en) | Turning and milling integrated machine tool | |
CN111014766A (en) | Motor shaft hole processing equipment | |
CN220971391U (en) | Numerical control automatic production line | |
CN111974892A (en) | Automatic feeding device of punching machine tool | |
CN205362799U (en) | Automatic opening machine of section bar terminal surface |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20090311 Effective date of abandoning: 20130110 |
|
C20 | Patent right or utility model deemed to be abandoned or is abandoned |