CN205733812U - A kind of multistation numerical control machine for processing - Google Patents

Abstract

The utility model discloses a kind of multistation numerical control machine for processing, belong to plant equipment manufacturing technology field, device and organisation of working is controlled including frame (1), casing (2), CNC, organisation of working is included in the upper processing component one being processed the part left side and the right side arranged of processing platform (8), to part followed by the processing component two processed, the processing component three that part is processed above；This utility model integrates multiple processing mode, can part be holed simultaneously, tapping, cut, milling, the multiple processing mode such as cutting, decrease the conveying cost of processing, improve production efficiency, improve machining accuracy.

Description

A kind of multistation numerical control machine for processing

Technical field

This utility model belongs to plant equipment manufacturing technology field, in particulars relate to one and collects multiple processing mode in one Body, for the multistation numerical control machine for processing that the workpiece needing processing utilizes various ways process.

Background technology

A cutter the most only installed by traditional lathe, a part is holed, tapping, cut, milling, cutting etc. many When kind of mode is processed, it is necessary to be placed on different lathes and be processed, so, on the one hand need in the course of processing into Transporting as going repeatedly, repeatedly clamp, repeatedly process, such working (machining) efficiency is low；On the other hand, repeatedly pressing from both sides due to same part When holding, the position of clamping there are differences, and the crudy of product would not be unified, with in a batch of product, and specification and matter There is bigger difference in amount.If therefore arranging multiple process tool on same Digit Control Machine Tool, on same fixture Part is processed, and thus can reduce mismachining tolerance to greatest extent, improves product quality.

Utility model content

The purpose of this utility model is to overcome in prior art and part adds man-hour requirement utilizes multiple stage machine tooling, enters Row repeatedly carrying and the technical problem repeatedly clamped, it is provided that a kind of by once clamping, various ways is processed in order Multistation numerical control machine for processing.

This utility model solves the technical problem that part a face once can only be processed by prior art further, One is provided to pass through once to clamp, the multistation numerical control machine for processing that multiple faces are processed.

In order to solve above-mentioned technical problem, this utility model provides a kind of multistation numerical control machine for processing, including frame, Casing and the CNC being arranged in frame control device and organisation of working, and organisation of working is provided with fixed rack, consolidates described Determine stand dead ahead and X-axis slide unit is set, X-axis slide unit arranges Y-axis slide unit, be provided above Z axis slide unit at fixed rack, On Y-axis slide unit, fixture is set, Z axis slide unit arranges processing platform, described processing platform is provided with motor one and groove, Processing component one is set in the inner side of groove, processing platform also sets up longitudinal support, longitudinal support arranges motor two With processing component two, longitudinal support arranges horizontal support, horizontal support arranges motor three and processing component three.

Above-mentioned a kind of multistation numerical control machine for processing, the left surface in the groove of described processing platform and right flank difference Being set to stairstepping step, described stairstepping step is provided with 2 to 5.

Above-mentioned a kind of multistation numerical control machine for processing, arranges the through through hole in left and right one, in institute in the middle of each step Arranging rotary shaft one in the through hole one stated, processing component one is arranged in through hole one, and processing component one includes being arranged on through hole one In rotary shaft one process tool, rotate wheel one, one end of described rotary shaft one fixes process tool, described rotary shaft one The other end arranges rotation wheel one, rotates wheel one and is driven by motor one.

Above-mentioned a kind of multistation numerical control machine for processing, through hole two through before and after arranging on longitudinal support, through hole two Being set to one to three, processing component two is arranged in through hole two, and processing component two includes the rotary shaft being arranged in through hole two Two, process tool, rotation wheel two, process tool, the other end of described rotary shaft two are fixed in one end of described rotary shaft two Rotation wheel two is set, rotates wheel two and driven by motor two.

Above-mentioned a kind of multistation numerical control machine for processing, arranges the through hole three of up/down perforation, through hole three on horizontal support Being set to one to three, processing component three is arranged in through hole three, and processing component three includes the rotary shaft being arranged in through hole three Three, process tool, rotation wheel three, process tool, the other end of described rotary shaft three are fixed in one end of described rotary shaft three Rotation wheel three is set, rotates wheel three and driven by motor three.

Above-mentioned a kind of multistation numerical control machine for processing, the described organisation of working in frame is set to 1 to 3.

The beneficial effects of the utility model are: 1, this utility model incorporates multiple processing mode in one, can simultaneously Part is holed, tapping, cut, milling, the multiple processing mode such as cutting, solve need to carry out in the part course of processing many Secondary carrying and the technical problem repeatedly clamped, decrease the conveying cost of processing, improves production efficiency；2, sliding by arranging X-axis Platform, Y-axis slide unit, Z axis slide unit, can make the part on fixture slide along X-axis slide unit, Z axis slide unit, by arranging Y-axis slide unit, and can So that process tool slides along Y-axis, it is achieved in that the multiple faces to part process in order, improves work efficiency, carry High manufacturing accuracy.

Accompanying drawing explanation

Fig. 1 is this utility model front view.

Fig. 2 is one of this utility model axonometric chart.

Fig. 3 is this utility model left view.

Fig. 4 is this utility model processing platform top view.

Fig. 5 is this utility model processing platform axonometric chart.

Fig. 6 is this utility model longitudinal direction support axonometric chart.

Fig. 7 is this utility model horizontal support top view.

Accompanying drawing mark explanation: 1-frame, 2-casing, 3-fixed rack, 4-X axle slide unit, 5-Y axle slide unit, 6-Z axle slide unit, 7-fixture, 8-processing platform, 9-groove, 10-step, 101-motor one, 102-through hole one, 103-rotary shaft one, 104-rotate Wheel one, 200-longitudinal direction support, 201-motor two, 202-through hole two, 203-rotary shaft two, 204-rotate wheel two, the horizontal machine of 300- Seat, 301-motor three, 302-through hole three, 303-rotary shaft three, 304-rotate wheel three.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings.

As shown in Figure 1 to Figure 3, a kind of multistation numerical control machine for processing described in the utility model, including frame 1, casing 2 And the CNC being arranged in frame 1 controls device and organisation of working, this organisation of working is provided with fixed rack 3, at fixed rack 3 dead aheads arrange X-axis slide unit 4, and as a kind of embodiment, this X-axis slide unit 4 is set to ball screw, and ball screw has high-precision Degree, reversibility and high efficiency, the feature that frictional force is little, arrange X-axis drive mechanism in X-axis slide unit 4 side, and this drive mechanism is arranged For servomotor, screw mandrel, by driven by servomotor, so can accurately control stroke.X-axis slide unit 4 arranges Y-axis slide unit 5, As a kind of embodiment, this Y-axis slide unit 5 is set to ball screw, is arranging Y-axis drive mechanism in Y-axis slide unit 5 side, and Y-axis is driven Motivation structure is set to servomotor；It is provided above Z axis slide unit 6 at fixed rack 3, Z axis is set in Z axis slide unit 6 side and drives Mechanism, Z axis drive mechanism is set to servomotor, and above-mentioned motor is set to servomotor, can accurately control stroke, improves and produces Product precision.

As shown in Figure 2 and Figure 3, arranging fixture 7 on Y-axis slide unit 5, fixture 7 is for Clamp blocks.Fixture 7 can be in Y-axis Move up and down under the driving of slide unit 5, and whole Y-axis slide unit 5 can move left and right under the driving of X-axis slide unit 4, so press from both sides Tool 7 just can move left and right and move up and down.

As shown in Figures 1 to 5, Z axis slide unit 6 arranges processing platform 8, processing platform 8 is provided with motor 1 He Groove 9, arranges processing component one in the inner side of groove 9, also sets up longitudinal support 200, at longitudinal support on processing platform 8 Motor 2 201 and processing component 2 are set on 200, longitudinal support 200 arranges horizontal support 300, on horizontal support 300 Motor 3 301 and processing component three are set.

As further improvement of the utility model measure, the left surface in the groove 9 of processing platform 8 and right flank difference Being set to stairstepping step 10, this stairstepping step 10 is provided with 2 to 5, and as shown in Figure 4, Figure 5, stairstepping step 10 is arranged It it is 3.The through through hole in left and right 1 is set in the middle of each step 10, rotary shaft is set in each through hole 1 One 103, processing component one is arranged in through hole 1, and processing component one includes the rotary shaft one being arranged in through hole 1 103, process tool, rotation wheel 1, one end of rotary shaft 1, i.e. inside stairstepping step 10, fixing process tool, This process tool can rotate according to cutters such as the setting flexibly of processing needs, as punched, tapping, car female thread, milling, cuttings The other end of axle 1, i.e. arranges rotation wheel 1 outside stairstepping step 10, rotates wheel 1 and is driven by motor 1 Dynamic, motor 1 can simultaneously drive rotation wheel 1 rotation outside three stairstepping steps 10.Left side in groove 9 It is respectively provided with processing component one on the stairstepping step 10 of face and right flank, thus three processing cuttves can be set at left surface Tool, is also provided with three process tools at right flank, therefore for part is processed, can enter there to be three kinds of modes in the left side of part Row processing, can also have three kinds of modes to be processed on the right side of part, and such working (machining) efficiency is greatly improved.

As shown in Fig. 3, Fig. 6, through hole 2 202 through before and after arranging on longitudinal support 200, through hole 2 202 is set to One to three, processing component two is arranged in through hole 2 202, and processing component two includes the rotary shaft being arranged in through hole 2 202 2 203, process tool, rotation wheel 2 204, process tool, the other end of rotary shaft 2 203 are fixed in one end of rotary shaft 2 203 Rotation wheel 2 204 is set, rotates wheel 2 204 and driven by motor 2 201；So arranging, motor 2 201 just can drive processing cutter Tool to part followed by processing, owing to through hole 2 202 is set to one to three, therefore can fix 1 to 3 processing cutter Tool, it is also possible to processing followed by 1 to 3 kind of mode part.

As shown in Fig. 3, Fig. 7, arranging the through hole 3 302 of up/down perforation on horizontal support 300, through hole 3 302 is set to One to three, processing component three is arranged in through hole 3 302, and processing component three includes the rotary shaft being arranged in through hole 3 302 3 303, process tool, rotation wheel 3 304, process tool, the other end of rotary shaft 3 303 are fixed in one end of rotary shaft 3 303 Arranging rotation wheel 3 304, rotate wheel 3 304 and driven by motor 3 301, such motor 3 301 just can drive process tool pair The above of part is processed.

As can be seen here, the left side of part, the right side, above, behind can be processed by this utility model simultaneously, and On each face, multiple processing mode can be had again to be processed, incorporate multiple processing mode in one, can be simultaneously to part Carry out holing, tapping, cut, milling, the multiple processing mode such as cutting, solve and need repeatedly to carry in the part course of processing The technical problem repeatedly clamped, decreases the conveying cost of processing, improves production efficiency.

As it is shown in figure 1, the organisation of working in frame 1 is set to 1 to 3, as such, it is possible to make the different processing in frame 1 Mechanism operates simultaneously, improves production efficiency further.

Above in conjunction with accompanying drawing, this utility model embodiment is explained in detail, but on this utility model is not limited to State embodiment, to those skilled in the art, it is also possible to make some under without departing from premise of the present utility model Modification and improvement, these also should be regarded as belonging to protection domain of the present utility model.

Claims (6)

1. a multistation numerical control machine for processing, including frame (1), casing (2) and the CNC control being arranged in frame (1) Device and organisation of working, it is characterised in that: described organisation of working is provided with fixed rack (3), at described fixed rack (3) Dead ahead arranges X-axis slide unit (4), arranges Y-axis slide unit (5) on X-axis slide unit (4), is provided above Z axis at fixed rack (3) Slide unit (6), arranges fixture (7) on Y-axis slide unit (5), arranges processing platform (8) on Z axis slide unit (6), and described processing is put down It is provided with motor one (101) and groove (9) on platform (8), processing component one is set in the inner side of groove (9), in processing platform (8) On also set up longitudinal support (200), longitudinal support (200) arranges motor two (201) and processing component two, at longitudinal support (200) horizontal support (300) is set on, horizontal support (300) arranges motor three (301) and processing component three.

A kind of multistation numerical control machine for processing the most according to claim 1, it is characterised in that: described processing platform (8) Left surface and right flank in groove (9) are respectively set to stairstepping step (10), and described stairstepping step (10) is provided with 2 To 5.

A kind of multistation numerical control machine for processing the most according to claim 2, it is characterised in that: arrange in the middle of each step The through hole one (102) that left and right is through, arranges rotary shaft one (103) in described through hole one (102), and processing component one is arranged on In through hole one (102), rotary shaft one (103) that processing component one includes being arranged in through hole one (102), process tool, rotation Wheel one (104), process tool is fixed in one end of described rotary shaft one (103), and the other end of described rotary shaft one (103) is arranged Rotate wheel one (104), rotate wheel one (104) and driven by motor one (101).

A kind of multistation numerical control machine for processing the most according to claim 1, it is characterised in that: on longitudinal support (200) Through hole two (202) through before and after setting, through hole two (202) is set to one to three, and processing component two is arranged on through hole two (202), in, processing component two includes that the rotary shaft two (203) being arranged in through hole two (202), process tool, rotation take turns two (204), process tool is fixed in one end of described rotary shaft two (203), and the other end of described rotary shaft two (203) arranges and turns Driving wheel two (204), rotates wheel two (204) and is driven by motor two (201).

A kind of multistation numerical control machine for processing the most according to claim 1, it is characterised in that: on horizontal support (300) Arranging the through hole three (302) of up/down perforation, through hole three (302) is set to one to three, and processing component three is arranged on through hole three (302), in, processing component three includes that the rotary shaft three (303) being arranged in through hole three (302), process tool, rotation take turns three (304), process tool is fixed in one end of described rotary shaft three (303), and the other end of described rotary shaft three (303) arranges and turns Driving wheel three (304), rotates wheel three (304) and is driven by motor three (301).

A kind of multistation numerical control machine for processing the most according to claim 1, it is characterised in that: in described frame (1) Organisation of working is set to 1 to 3.