CN208437691U - A kind of numerically-controlled machine tool knife platform - Google Patents

Abstract

The utility model discloses a kind of numerically-controlled machine tool knife platforms, are related to mechanical equipment manufacture field, solve the problems, such as that existing lathe scrap in turner is easy to be wound on lathe tool and impact turning.Technical solution is a kind of numerically-controlled machine tool knife platform, including vertical framework, the vertical framework is driven as driving mechanism and is moved on its vertical plane locating for it, the front and back two sides of the vertical framework, which is respectively arranged with, to be driven main shaft moved axially back and forth along it by driving mechanism and drives the countershaft to move in the horizontal plane by driving mechanism, the direction of the main shaft and the countershaft is opposite and is axially perpendicular to vertical plane locating for the vertical framework, turning tool apron is fixedly installed on the cross tube of the vertical framework, it is mounted with multiple cutter heads on the turning tool apron downwards and protrudes into the lathe tool in frame.The utility model is structurally reasonable, and in turning, scrap is not easy to be wound on lathe tool, and the workpiece on main shaft and the workpiece on countershaft can synchronize processed.

Description

A kind of numerically-controlled machine tool knife platform

Technical field

The utility model relates to mechanical equipment manufacture field, in particular to a kind of numerically-controlled machine tool knife platform.

Background technique

On the lathe of machining, traditional knife platform can be often set for clamping cutter, using knife platform in machine tool guideway On movement, and then drive workpiece processing tool.One knife platform can be also set on numerically-controlled machine tool, most Cutting tool installation manners are fixed On knife platform, band cutter processes workpiece when mobile by knife platform.

Such as notification number is the patent of CN206966684U, discloses a kind of double-knife bench turning equipment, it includes machine Bed, lathe top side are vertically equipped with mounting base, and other side level is equipped with main guide rail；Mounting base is equipped with close to the side of main guide rail Shaft, the other side are equipped with rotating electric machine；Horizontally disposed supporting plate is slidably connected on main guide rail, supporting plate top is equipped with and main guide rail Vertical secondary guide rail；Double-knife bench pedestal is slidably connected on secondary guide rail, double-knife bench base top is vertically equipped with a pair of of knife platform；Two Knife platform is oppositely arranged, and is horizontally installed with lathe tool respectively；Shaft is equipped with fixed or unclamps to be processed far from one end of mounting base The fixture of workpiece.

Such as the above-mentioned prior art, during processing, the lathe tool on knife platform is horizontal from the side of workpiece for existing lathe Feed is to carry out turning to workpiece, but scrap of the lathe tool from workpiece under turning is easy to be wrapped on lathe tool and to lathe tool at this time Turner impacts.

Utility model content

The purpose of the utility model is to provide a kind of numerically-controlled machine tool knife platforms, by the cross tube that lathe tool is arranged in knife platform On, lathe tool turner from top to bottom, so that the scrap that turning generates is not easy to be wrapped on lathe tool and to lathe tool turner It impacts.

The above-mentioned technical purpose of the utility model has the technical scheme that a kind of numerically-controlled machine tool knife Platform, including vertical framework, the vertical framework are driven as driving mechanism and are moved on its vertical plane locating for it, the vertical frame The front and back two sides of body, which is respectively arranged with, to be driven main shaft moved axially back and forth along it by driving mechanism and is driven by driving mechanism The direction of the dynamic countershaft to move in the horizontal plane, the main shaft and the countershaft is opposite and is axially perpendicular to the vertical framework Locating vertical plane is fixedly installed with turning tool apron on the cross tube of the vertical framework, installs and fix on the turning tool apron There are multiple cutter heads downwards and protrudes into the lathe tool in frame.

By using above scheme, when carrying out work pieces process, workpiece is first clamped on main shaft, is driven by driving mechanism Vertical framework moves on vertical plane, so that the lathe tool in vertical framework carries out turning to workpiece, cooperates main shaft before its axial direction After move so that workpiece different location is turned on, then clamps the good one end of work pieces process by countershaft, when mobile by vertical framework Lathe tool thereon carries out turning to the unprocessed one end of workpiece, and cooperation countershaft moves axially back and forth along it, so that workpiece difference position It sets and is turned on, turning tool apron is arranged at this time on the cross tube of vertical framework, and set knife for the lathe tool on turning tool apron Downwards, then lathe tool is when processing the workpiece on main shaft or countershaft, the gravity of scrap under turning due to itself for head Effect directly can fall or naturally droop, so that scrap is not easy to be wrapped on the lathe tool above workpiece；At the same time, Driving mechanism is driving vertical framework downwards and when the lathe tool in vertical framework processes workpiece, vertical framework by The power that the gravity of itself is downward and driving mechanism drives its downward, so that the lathe tool in vertical framework is downward When turner, lathe tool can process workpiece from side compared to lathe tool, at this time lathe tool pair by power bigger downwards The turning of workpiece is more stable, and the vibration generated when reduced lathe tool turner, improves the rigidity of knife platform entirety, is promoted Working ability.

The utility model is further arranged to: being fixedly installed with drill bit in a wherein vertical bar for the vertical framework and is referred to Lateral dynamics head into frame, and the drill bit of the lateral dynamics head is axially perpendicular to the main shaft.

By using above scheme, lateral dynamics head, lateral dynamics are set in a wherein vertical bar for vertical framework Drill bit on head be directed toward it is in frame and axially vertical with main shaft, then when driving mechanism drives vertical framework mobile, cooperate main shaft or It is the mobile adjustment of countershaft, the drill bit on lateral dynamics head can obtain being punched in the side wall different location of workpiece, may be used also Annular saw knife is arranged on drill bit to cut to workpiece, knife platform is enabled to carry out turning to workpiece, moreover it is possible in workpiece Side carries out punching fluting.

The utility model is further arranged to: the turning tool apron is provided with fixation close to the side of the lateral dynamics head The drill bit of front drill headstock on the cross tube of the vertical framework, the front drill headstock is axially parallel to the main shaft, And drill bit direction on the front drill headstock and the countershaft towards identical.

By using above scheme, front drill headstock, the brill on the drill headstock of front are set on the cross tube of vertical framework Head is axially parallel with main shaft, and drill bit direction and countershaft be towards identical, and countershaft and main shaft towards on the contrary, then drill bit court To with main shaft on the contrary, with vertical framework movement so that on the drill headstock of front drill bit alignment main shaft on workpiece front, so Spindle control workpiece is gone forward afterwards, then the drill bit on the drill headstock of front can drill to the front of workpiece, in front drill headstock Upper fixed lathe tool, then cooperate the rotation of Spindle control workpiece and movement, then turning can be carried out to the front of workpiece；At the same time, The height for adjusting front drill headstock, can make the workpiece on main shaft after being turned on, and the position of mobile vertical framework makes The workpiece obtained on main shaft can be processed by the drill bit on the drill headstock of front, and the workpiece clamped on countershaft at this time can be by turning Lathe tool on tool apron, which synchronizes, to be processed.

The utility model is further arranged to: the vertical framework is fixed in the vertical bar of the lateral dynamics head Back side power head, the drill bit of the back side power head is axial axial parallel with the main shaft, and on the back side power head Drill bit direction and the main shaft towards identical.

By using above scheme, back side power head, back are set in vertical bar of the vertical framework away from lateral dynamics head The axial direction of face power head power and main shaft it is axial parallel, and drill bit direction on the power head of the back side and main shaft be towards identical, Then drill bit direction and countershaft are towards on the contrary, when piece-holder is on countershaft, the movement of the mobile cooperation countershaft of vertical framework makes Perforation processing can be carried out to the back side of workpiece by obtaining the drill bit on the power head of the back side；Also, since lateral dynamics head and the back side are dynamic Power head is separately positioned in two vertical bars of vertical framework two sides, then main shaft holds workpiece and processes at lateral dynamics head When, countershaft can clamp workpiece and overleaf be processed at power head, so that main spindle's and countershaft position are staggered, avoid two Person influences each other, so that main shaft and countershaft clamping workpiece can be processed simultaneously to improve processing efficiency respectively.

The utility model is further arranged to: being additionally provided with below the lateral dynamics head and is fixed on the vertical framework Vertical bar on two-sided drill headstock, the two-sided drill headstock is all provided with brill towards the two sides of the main shaft and the countershaft Head.

By using above scheme, then two-sided drill headstock is set in the vertical bar of vertical framework, two-sided drill headstock direction Drill bit is all arranged in the two sides of main shaft and countershaft, then in processing, main shaft and countershaft can clamp a workpiece respectively, on countershaft Work pieces process front on the work pieces process back side and main shaft can carry out simultaneously.

The utility model is further arranged to: multiple vertical mounting grooves, the lathe tool are provided on the turning tool apron Be embedded in the mounting groove, and the one side wall of the lathe tool be towards slot outside skew wall, be also embedded with card in the mounting groove Item, the one side of the strip are inclined-plane and are bonded the skew wall for being connected to the lathe tool, one side of the strip backwards to inclined-plane It pushes against in the cell wall of the mounting groove, the strip is also equipped in the one side of the mounting groove and is threadedly connected to the vehicle The fixing bolt of sharpener seat.

By using above scheme, lathe tool is embedded in mounting groove solid by push against to lathe tool in strip insertion mounting groove Fixed, since the one side of strip is inclined-plane, then the side width in strip insertion mounting groove is less than strip backwards to mounting groove side Width, when different size of lathe tool is installed in mounting groove, fixing bolt fixing strip so that strip insertion mounting groove in Depth is also different, allows strip to fix different size of lathe tool, and fixing bolt is easy to disassemble, thus card easy to disassemble Item and lathe tool, so that turning tool apron is convenient for changing different size of lathe tool.

The utility model is further arranged to: vertical slots is provided in the vertical bar of the vertical framework, the back side is dynamic It is fixedly connected with the gib block being slidably connected in the vertical slots on power head, regulation electricity is further fixed in the vertical framework The shaft of machine, the regulation motor is vertically arranged and has been fixedly and coaxially connected lead screw, and the threads of lead screw is connected to the back side Power head.

By using above scheme, although adjusting the height backwards to power head, so that clamping workpiece is laterally dynamic on main shaft When processing at power head, countershaft can clamp another workpiece and be processed at power head, but the workpiece on main shaft Each drill bit when needing to use drill bit different on lateral dynamics head and being processed, in order to avoid interference, on lateral dynamics head It needs to arrange along the vertical direction and as the movement of vertical framework is to process the workpiece on main shaft, at this time vertical framework hair Raw movement, the then height and position for the back side power head being fixed in vertical framework also change, and it will cause obtain back side power The height of workpiece is mismatched and can not be processed in the height and countershaft of head, so being provided with leadscrew-nut mechanism so that back Face power head can move up and down adjustment height and position, then the height and position of lateral dynamics head is adjusted in the movement of vertical framework, When so that the drill bit of different height position processing the workpiece on main shaft on lateral dynamics head, the height position of back side power head Setting can also be adjusted to cooperate the workpiece height on countershaft, enable back side power head smoothly to the workpiece on countershaft It is processed.

The utility model is further arranged to: between the lateral dynamics head and its drill bit, the back side power head with It is all provided with collet between its drill bit, is rotatably connected to fixed block outside the collet, screw thread company is equipped on the fixed block It is connected to the installation bolt of the shell of the lateral dynamics head or the shell of the back side power head, drill bit is held on the collet One end, the other end of the collet are provided with link block, and on the rotary head of the lateral dynamics head, the back side power head turns It is all provided with embedding hole on dynamic head, the link block inlay card is matched with embedding hole.

By using above scheme, collet is set between power head and drill bit, by collet fixed drill bit, is then facilitated more Bit change, and link block is set backwards to one end of drill bit in collet, embedding hole is set on the rotary head of power head, by that will connect Block is attached fixation in embedding hole, and then setting installs bolt for collet fixed to power on the fixed block outside collet again On the shell of head, then collet is conveniently removed to replace other kind of cutter.

In conclusion the utility model has the following beneficial effects: one is that lathe tool is fixed on vertical framework On cross tube, so that lathe tool lathe tool in turner is positioned at the top of workpiece, scrap energy of the lathe tool from workpiece under turning Enough natures fall or hang down naturally and avoid scrap from being wound on lathe tool and impact to lathe tool turner；Secondly being reasonable Devise the structure distribution of each section so that main shaft clamp countershaft clamps while workpiece is processed workpiece can also be with It is processed.

Detailed description of the invention

Fig. 1 is the general structure schematic diagram of embodiment；

Fig. 2 is the enlarged drawing of part A in Fig. 1；

Fig. 3 is the part explosive view of embodiment overall structure, to embody collet segment；

Fig. 4 is the enlarged drawing of part B in Fig. 3.

Appended drawing reference: 1, vertical framework；2, main shaft；3, countershaft；4, turning tool apron；5, lathe tool；6, lateral dynamics head；7, just Face drill headstock；8, back side power head；9, two-sided drill headstock；10, mounting groove；11, strip；12, fixing bolt；13, vertical slots； 14, gib block；15, regulate and control motor；16, lead screw；17, collet；18, fixed block；19, bolt is installed；20, link block；21, embedding Hole.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

As shown in Figure 1, a kind of numerically-controlled machine tool knife platform, including vertical framework 1, vertical framework 1 (are not shown by driving mechanism in figure Out, common for leadscrew-nut mechanism) it drives and is moved on its vertical plane where it, that is, move up and down and control in figure It is mobile.Two sides is separately provided for the main shaft 2 and countershaft 3 of clamping workpiece before and after vertical framework 1, main shaft 2 and countershaft 3 It is axially perpendicular to vertical plane locating for vertical framework 1, and the direction of main shaft 2 and countershaft 3 is opposite, main shaft 2 is driven by driving mechanism It is dynamic that is, to be moved forward and backward in figure with allowing to be moved forward and backward along its axial direction, countershaft 3 is driven by driving mechanism so that its It can move in the horizontal plane, that is, be moved forward and backward and move left and right in figure.

It is fixedly installed with turning tool apron 4 on the cross tube of vertical framework 1, is fixed on turning tool apron 4 in the present embodiment Six lathe tools 5, the cutter head of lathe tool 5 straight down and protrude into frame, so that workpiece or pair that lathe tool 5 clamps on to main shaft 2 When the workpiece that clamps on axis 3 carries out turning, the scrap that turning generates can directly fall or sagging and scrap is avoided to be wound into 5 turner of lathe tool is impacted on lathe tool 5.

Referring to figs. 1 and 2, there are six vertical mounting grooves 10 for setting on turning tool apron 4, and lathe tool 5, which is embedded, to be installed In slot 10, and a side of lathe tool 5 is specially set as the inclined-plane outside towards slot, and going back inlay card in mounting groove 10 has strip 11, the one side of strip 11 is inclined-plane and fitting is pushed against on the inclined-plane of lathe tool 5, and strip 11 is bonded backwards to the one side of lathe tool 5 It is pushed against on the cell wall of mounting groove 10, is then equipped on one side of the strip 11 backwards to mounting groove 10 and is threaded in turning knife Fixing bolt 12 on seat 4 is to be fixed strip 11.Lathe tool 5 is pressed on the cell wall of mounting groove 10 by strip 11 to be consolidated It is fixed, and turning tool apron 4 is made to be convenient for changing different size of lathe tool 5.

As shown in Figure 1, being fixed with lateral dynamics head 6, lateral dynamics in the present embodiment on vertical 1 right vertical bar of framework First 6 be five shaft types, and five axis are laterally arranged and are alternatively arranged in the vertical direction, so that drill bit or knife on one of axis Has the influence that not will receive drill bit or cutter on other axis when to work pieces process on main shaft 2.

And the front drill headstock 7 being fixed on vertical 1 cross tube of framework is provided in the top of lateral dynamics head 6, this reality Applying drill bit in example on front drill headstock 7 is five formulas, and the axial direction of drill bit is parallel with axial axial direction, and drill bit is towards main shaft 2 with the front of the workpiece clamped on machining spindle 2.

And the two-sided drill headstock 9 being fixed on vertical 1 right vertical bar of framework is provided in the lower section of lateral dynamics head 6, Two-sided drill headstock 9 is towards being respectively provided with four drill bits on the two sides of main shaft 2 and countershaft 3 in the present embodiment, and two-sided drill headstock 9 can be with The workpiece clamped on the workpiece and countershaft 3 clamped on main shaft 2 is processed simultaneously.

Back side power head 8 is fixed on the left side vertical bar of vertical framework 1, back side power head 8 is eight in the present embodiment Shaft type, overleaf the top of power head 8 is additionally provided with the regulation motor 15 being fixed in vertical framework 1, and regulation motor 15 turns Lead screw 16 is fixedly and coaxially connected on axis, lead screw 16 and back side power head 8 are threadedly coupled, also, the overleaf side of power head 8 It is provided with gib block 14, vertical slots 13 are provided on the left side vertical bar of vertical framework 1, gib block 14 is slidably connected at vertically In slot 13, then it can control back side power head 8 when regulating and controlling motor 15 and working and move up and down.The left side vertical bar of vertical framework 1 It is upper vacant there are also portion, it can according to need some drill bits of installation or cutter.

In conjunction with shown in Fig. 3 and Fig. 4, between each rotary head and drill bit of lateral dynamics head 6, each of back side power head 8 Collet 17 is all provided between rotary head and drill bit, collet 17 of the collet 17 using alpstool knife handle, collet in the present embodiment 17 one end clamps drill bit, and the other end is provided with rectangular link block 20, embedding hole 21, link block are correspondingly arranged on rotary head The cooperation of 20 inlay cards, to be attached to collet 17 and rotary head, is also rotatably connected to fixed block 18 in embedding hole 21 outside collet 17, Fixed block 18 is fixed on the overleaf shell of power head 8 or lateral dynamics head 6 by installation bolt 19, so that collet 17 is not easy Directly fall off.After collet 17, facilitate installation and replacement drill bit, meanwhile, entire collet 17 is conveniently removed to install other Cutter.

The course of work: the first step, main shaft 2 hold workpiece, by the movement of main shaft 2 and vertical framework 1, so that main shaft 2 On workpiece be moved at turning tool apron 4 by lathe tool 5 carry out turning.Second step, the workpiece on main shaft 2 lead to after turning is complete The movement of main shaft 2 and vertical framework 1 is crossed, so that the workpiece on main shaft 2 is moved at front drill headstock 7, by front drill headstock 7 Drill bit the front of workpiece is processed.Third step, by the movement of main shaft 2 and vertical framework 1, so that the work on main shaft 2 Part is moved at two-sided drill headstock 9, continues to process to the front of workpiece by the drill bit on two-sided 9 back side of drill headstock.4th Step, by the movement of main shaft 2 and vertical framework 1, so that the workpiece on main shaft 2 is moved at lateral dynamics head 6, by lateral dynamics Drill bit or cutter on first 6 process the side of workpiece.5th step passes through the shifting of main shaft 2, countershaft 3 and vertical framework 1 Dynamic to cooperate, the workpiece on main shaft 2 is clamped on countershaft 3.6th step, by the movement of countershaft 3 and vertical framework 1, so that secondary Workpiece on axis 3, which is moved at turning tool apron 4, carries out turning by lathe tool 5.7th step passes through the shifting of countershaft 3 and vertical framework 1 Dynamic, the workpiece on countershaft 3 is moved at two-sided drill headstock 9, is added by the positive drill bit of two-sided drill headstock 9 to back of work Work.8th step, by the movement of countershaft 3 and vertical framework 1, the workpiece on countershaft 3 is moved at back side power head 8, by the back side Drill bit or cutter on power head 8 process the back side of workpiece, subsequently complete the processing of entire workpiece.

In the above process, by adjusting the height and position of lathe tool 5 and front drill headstock 7, the 6th step and the first step, second step It can synchronize and be operated.Adjust the crown height on two-sided 9 two sides of drill headstock, the 7th step and third step can synchronize grasped Make.When four steps, vertical framework 1 needs to adjust up and down, and 16 nut body of lead screw is provided at back side power head 8 can also be right It carries out adjustment up and down, so that the relative altitude position of back side power head 8 and lateral dynamics head 6 remains unchanged, then cooperates with pair The movement of axis 3, allow the 8th step and the 4th step synchronize operated.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (8)

1. a kind of numerically-controlled machine tool knife platform, including vertical framework (1), the vertical framework (1) drives it in its institute by driving mechanism It is moved on the vertical plane at place, the front and back two sides of the vertical framework (1), which is respectively arranged with, to be driven by driving mechanism along its axial direction The main shaft (2) of back-and-forth motion and countershaft (3) to move in the horizontal plane is driven by driving mechanism, the main shaft (2) and institute It states the direction of countershaft (3) on the contrary and is axially perpendicular to vertical plane locating for the vertical framework (1), it is characterised in that: is described perpendicular It is fixedly installed with turning tool apron (4) on the cross tube of straight framework (1), is mounted with multiple cutter heads on the turning tool apron (4) Downwards and protrude into the lathe tool in frame (5).

2. a kind of numerically-controlled machine tool knife platform according to claim 1, it is characterised in that: wherein the one of the vertical framework (1) The lateral dynamics head (6) that drill bit is directed toward in frame is fixedly installed in root vertical bar, and the drill bit of the lateral dynamics head (6) is axial Perpendicular to the main shaft (2).

3. a kind of numerically-controlled machine tool knife platform according to claim 2, it is characterised in that: the turning tool apron (4) is close to described The side of lateral dynamics head (6) is provided with the front drill headstock (7) being fixed on the cross tube of the vertical framework (1), described The drill bit of front drill headstock (7) is axially parallel to the main shaft (2), and drill bit direction and institute on the front drill headstock (7) State countershaft (3) towards identical.

4. a kind of numerically-controlled machine tool knife platform according to claim 3, it is characterised in that: the vertical framework (1) is away from described Be fixed in the vertical bar of lateral dynamics head (6) back side power head (8), the drill bit of the back side power head (8) it is axial with it is described Main shaft (2) it is axial parallel, and drill bit direction on the back side power head (8) and the main shaft (2) towards identical.

5. a kind of numerically-controlled machine tool knife platform according to claim 3, it is characterised in that: the lower section of the lateral dynamics head (6) It is additionally provided with the two-sided drill headstock (9) being fixed in the vertical bar of the vertical framework (1), two-sided drill headstock (9) direction The two sides of the main shaft (2) and the countershaft (3) are all provided with drill bit.

6. a kind of numerically-controlled machine tool knife platform according to claim 1, it is characterised in that: be provided on the turning tool apron (4) Multiple vertical mounting grooves (10), the lathe tool (5) is embedded in the mounting groove (10), and the one side wall of the lathe tool (5) For the skew wall outside towards slot, is also embedded with strip (11) in the mounting groove (10), the one side of the strip (11) is inclined-plane And it is bonded the skew wall for being connected to the lathe tool (5), one side of the strip (11) backwards to inclined-plane is pushed against in the mounting groove (10) cell wall, the strip (11) are also equipped in the one side of the mounting groove (10) and are threadedly connected to the turning knife The fixing bolt (12) of seat (4).

7. a kind of numerically-controlled machine tool knife platform according to claim 4, it is characterised in that: the vertical bar of the vertical framework (1) On be provided with vertical slots (13), be fixedly connected with and be slidably connected in the vertical slots (13) on the back side power head (8) Gib block (14), regulation motor (15) is further fixed on the vertical framework (1), and the shaft of regulation motor (15) is set vertically It sets and has been fixedly and coaxially connected lead screw (16), the lead screw (16) is threadedly connected to the back side power head (8).

8. a kind of numerically-controlled machine tool knife platform according to claim 4, it is characterised in that: the lateral dynamics head (6) and its It is all provided with collet (17) between drill bit, between the back side power head (8) and its drill bit, the collet (17) company of rotation outside It is connected to fixed block (18), is equipped with the shell or described for being threadedly connected to the lateral dynamics head (6) on the fixed block (18) The installation bolt (19) of the shell of back side power head (8), drill bit are held on one end of the collet (17), the collet (17) The other end is provided with link block (20), on the rotary head of the lateral dynamics head (6), the rotary head of the back side power head (8) On be all provided with embedding hole (21), link block (20) inlay card is matched with embedding hole (21).