CN201052575Y - Multifunctional machine tool for digital control vehicle milling drill - Google Patents

Abstract

The utility model provides a numerically controlled lathe mill-drill multifunctional machine tool, comprising a lathe bed, and is characterized in that a main spindle box is mounted on the lathe bed, a main shaft is mounted in the main spindle box, one end of the main shaft is connected with a first servo-motor, a chuck is mounted on the other end of the main shaft, at least two guide rails are mounted on the lathe bed, at least one big carriage which moves along the length direction of the lathe bed is mounted on the guide rail, a small guide rail is mounted on the big carriage, a small carriage is mounted on the big carriage, an electric vehicle tool-post and a drill-mill head tool-post are mounted on the small carriage, a drill-mill head main shaft is mounted on the drill-mill head tool-post and is connected with a second servo-motor, and the big carriage and the small carriage are respectively connected with a ball lead-screw. The utility model has the advantages that multi-channel machine processing procedures of lathe, milling, drilling can be achieved on one machine tool, thereby reducing the occupying area of equipment, saving investment, reducing turnover links of operators in the production, and substantially enhancing the production efficiency.

Description

The numerical-control turn-milling drilling multifunction machine

Technical field

The utility model relates to lathe, is a kind of numerical-control turn-milling drilling multifunction machine.

Background technology

Because Digit Control Machine Tool has many advantages, now has been widely used in the machined field.And existing Digit Control Machine Tool can only be finished various parts one procedures of car, adds man-hour when needs mill or bore, and need arrive on the other lathe and finish, and this just forces machined enterprise that the processing of many lathes in order to finishing car, milling, bore must be set.Many lathes are set need account for than large tracts of land, need bigger investment simultaneously, therefore, multifunction machine is attempted to design in this area, to reach the purpose that a machine can be used more.By disclosed Multi Role Aircraft bed structure as can be known, the structure more complicated of on a machine tool, finishing car, milling, bore multi-step process, its structure can't be used on Digit Control Machine Tool simultaneously.Cause present machined enterprise when using numerical control machine wheeled litter parts, still need to finish on other lathe and mill, bore processing.

Summary of the invention

The purpose of this utility model is, a kind of numerical-control turn-milling drilling multifunction machine is provided, and makes it can finish car at a Digit Control Machine Tool, mill, bore three road machining processes, thereby reduces floor space, reduces investment, enhances productivity.

The utility model for achieving the above object, be achieved through the following technical solutions: the numerical-control turn-milling drilling multifunction machine, comprise lathe bed, main spindle box is installed on the lathe bed, main shaft is installed in the main spindle box, main shaft one end is connected with first servomotor, main shaft other end chuck for installing is installed two guide rails at least on the lathe bed, a saddle that moves along the lathe bed length direction is installed on the guide rail at least, little guide rail is installed on the saddle, upper slide rest is installed on the saddle, electric motor car knife rest and Drilling and milling head knife rest are installed on the upper slide rest, the Drilling and milling head main shaft is installed on the Drilling and milling head knife rest, the Drilling and milling head main shaft is connected with second servomotor, and saddle is connected with ball-screw respectively with upper slide rest.Described guide rail is two, first planker is installed on the guide rail, two first little guide rails are installed on the first planker, first upper slide rest and second upper slide rest are installed respectively on the first planker, the electric motor car knife rest is installed on first upper slide rest, the Drilling and milling head knife rest is installed on second upper slide rest, first upper slide rest is connected with first ball-screw, second upper slide rest is connected with second ball-screw, first ball-screw is connected with the 3rd servomotor, second ball-screw is connected with the 4th servomotor, and first planker is connected with the 3rd ball-screw, and the 3rd ball-screw is connected with the 5th servomotor.Described guide rail is four, the planker that moves along the lathe bed length direction is two, a saddle is installed on per two guide rails, second largest planker is installed on the guide rail, article two, the 4th ball-screw is installed between the guide rail, the 4th ball-screw is connected with the 6th servomotor with second largest planker respectively, the third-largest planker is installed on the guide rail, article two, the 5th ball-screw is installed between the guide rail, the 5th ball-screw is connected with the 7th servomotor with the third-largest planker respectively, two second little guide rails are installed on the second largest planker, the 6th ball-screw is installed between two the second little guide rails, the 6th ball-screw is connected with the 3rd servomotor, car electric motor car knife rest is installed on the second little guide rail, two article of the 3rd little guide rail is installed on the third-largest planker, the 7th ball-screw is installed between the 3rd little guide rail, the 7th ball-screw is connected with the 4th servomotor.The main shaft one end employing shaft coupling and first servomotor are direct.Mounted tailstock on two guide rails in the centre of four guide rails, the horizontal center line of tailstock and the horizontal center line of chuck are same center line.

Advantage of the present utility model is: realized can finishing car on a machine tool, milling, bore the multiple tracks machining processes, thereby reduced the floor space of equipment, save investment, reduced all swivel links in operating personnel and the production, increased substantially production efficiency.

Description of drawings

Accompanying drawing 1 is one of a utility model embodiment structural representation; Accompanying drawing 2 is two structural representations of the utility model embodiment, and accompanying drawing 1 and accompanying drawing 2 are the plan structure schematic diagram of the utility model lathe.

The specific embodiment

The contrast drawings and Examples are described further the utility model.

Numerical-control turn-milling drilling multifunction machine described in the utility model, be on existing numerically controlled lathe, carry out improved.Except that the improvement structure of the application's record, all the other structures are all identical with existing numerically controlled lathe.The utility model has a lathe bed 15, main spindle box 1 is installed on the lathe bed 15, main shaft 16 is installed in the main spindle box 1, main shaft 16 1 ends are connected with first servomotor 2, main shaft 16 other end chuck for installing 4, two guide rails are installed on the lathe bed 15 at least, a saddle that moves along lathe bed 15 length directions is installed on the guide rail at least, little guide rail is installed on the saddle, upper slide rest is installed on the saddle, electric motor car knife rest 12 and Drilling and milling head knife rest 6 are installed on the upper slide rest, Drilling and milling head main shaft 17 is installed on the Drilling and milling head knife rest 6, Drilling and milling head main shaft 17 is connected with second servomotor 7, and saddle is connected with ball-screw respectively with upper slide rest.Scheme of the present utility model can have a plurality of embodiment, and the application discloses two.One of embodiment is: described guide rail is two, first planker 8 is installed on the guide rail 9, two first little guide rails 14 are installed on the first planker 8, first upper slide rest 18 and second upper slide rest 19 are installed respectively on the first planker 8, electric motor car knife rest 12 is installed on first upper slide rest 18, Drilling and milling head knife rest 6 is installed on second upper slide rest 19, first upper slide rest 18 is connected with first ball-screw 13, second upper slide rest 19 is connected with second ball-screw 20, first ball-screw 13 is connected with the 3rd servomotor 5, second ball-screw 20 is connected with the 4th servomotor 21, and first planker 8 is connected with the 3rd ball-screw 22, and the 3rd ball-screw 22 is connected with the 5th servomotor 11; The described main shaft 16 1 ends employing shaft coupling and first servomotor 2 are direct.Two of embodiment is: guide rail is four, and the planker that moves along lathe bed 15 length directions is two, and a saddle is installed on per two guide rails.Its structure is: second largest planker 34 is installed on the guide rail 23, article two, the 4th ball-screw 24 is installed between the guide rail, the 4th ball-screw 24 is connected with the 6th servomotor 25 with second largest planker 34 respectively, the third-largest planker 35 is installed on the guide rail 26, article two, the 5th ball-screw 27 is installed between the guide rail, the 5th ball-screw 27 is connected with the 7th servomotor 28 with the third-largest planker 35 respectively, two second little guide rails 29 are installed on the second largest planker 34, article two, the 6th ball-screw 30 is installed between the second little guide rail 29, the 6th ball-screw 30 is connected with the 3rd servomotor 5, car electric motor car knife rest 12 is installed on the second little guide rail 29, two article the 3rd little guide rail 31 is installed on the third-largest planker 35, the 7th ball-screw 32, the seven ball-screws 32 are installed between the 3rd little guide rail 31 to be connected with the 4th servomotor 21.The described main shaft 16 1 ends employing shaft coupling and first servomotor 2 are direct, mounted tailstock 33 on two guide rails in the centre of four guide rails, and the horizontal center line of the horizontal center line of tailstock 33 and chuck 4 is same center line.Saddle described in the utility model moves along the lathe bed length direction, and upper slide rest moves along the lathe bed width.Thereby adopt first servomotor 2 to drive main shaft 16 and rotate the calibration function that can make 360 ° of chuck 4 realizations, 360 ° that better finish workpiece are milled, bore processing.3 is numerical control devices among the figure.The utility model not detailed description is the known technology of numerically controlled lathe.The utility model is not limited among the embodiment.

Claims (5)

1. numerical-control turn-milling drilling multifunction machine, comprise lathe bed (15), it is characterized in that: lathe bed (15) is gone up main spindle box (1) is installed, main shaft (16) is installed in the main spindle box (1), main shaft (16) one ends are connected with first servomotor (2), main shaft (16) other end chuck for installing (4), two guide rails are installed on the lathe bed (15) at least, a saddle that moves along lathe bed (15) length direction is installed on the guide rail at least, little guide rail is installed on the saddle, upper slide rest is installed on the saddle, electric motor car knife rest (12) and Drilling and milling head knife rest (6) are installed on the upper slide rest, Drilling and milling head knife rest (6) is gone up Drilling and milling head main shaft (17) is installed, and Drilling and milling head main shaft (17) is connected with second servomotor (7), and saddle is connected with ball-screw respectively with upper slide rest.

2. numerical-control turn-milling drilling multifunction machine according to claim 1, it is characterized in that: described guide rail is two, guide rail (9) is gone up first planker (8) is installed, first planker (8) is gone up two first little guide rails (14) is installed, first upper slide rest (18) and second upper slide rest (19) are installed respectively on the first planker (8), first upper slide rest (18) is gone up electric motor car knife rest (12) is installed, second upper slide rest (19) is gone up Drilling and milling head knife rest (6) is installed, first upper slide rest (18) is connected with first ball-screw (13), second upper slide rest (19) is connected with second ball-screw (20), first ball-screw (13) is connected with the 3rd servomotor (5), second ball-screw (20) is connected with the 4th servomotor (21), first planker (8) is connected with the 3rd ball-screw (22), and the 3rd ball-screw (22) is connected with the 5th servomotor (11).

3. numerical-control turn-milling drilling multifunction machine according to claim 1, it is characterized in that: described guide rail is four, the planker that moves along lathe bed (15) length direction is two, a saddle is installed on per two guide rails, second largest planker (34) is installed on the guide rail (23), article two, the 4th ball-screw (24) is installed between the guide rail, the 4th ball-screw (24) is connected with the 6th servomotor (25) with second largest planker (34) respectively, the third-largest planker (35) is installed on the guide rail (26), article two, the 5th ball-screw (27) is installed between the guide rail, the 5th ball-screw (27) is connected with the 7th servomotor (28) with the third-largest planker (35) respectively, second largest planker (34) is gone up two second little guide rails (29) is installed, article two, the 6th ball-screw (30) is installed between the second little guide rail (29), the 6th ball-screw (30) is connected with the 3rd servomotor (5), the second little guide rail (29) is gone up car electric motor car knife rest (12) is installed, the third-largest planker (35) is gone up two article of the 3rd little guide rail (31) is installed, the 7th ball-screw (32) is installed between the 3rd little guide rail (31), and the 7th ball-screw (32) is connected with the 4th servomotor (21).

4. according to claim 1,2 or 3 each described numerical-control turn-milling drilling multifunction machines, it is characterized in that: main shaft (16) one ends adopt shaft coupling and first servomotor (2) directly.

5. numerical-control turn-milling drilling multifunction machine according to claim 3 is characterized in that: mounted tailstock (33) on two guide rails in the centre of four guide rails, the horizontal center line of the horizontal center line of tailstock (33) and chuck (4) is same center line.