CN117245742A - Double-five-axis machining center for machining strip-shaped materials into special-shaped pieces - Google Patents

Abstract

A double five-axis machining center for machining strip materials into special-shaped pieces relates to a machining center, which comprises a frame, a turning, milling and drilling mechanism and a piece grabbing mechanism and is characterized in that: the frame is provided with two pairs of side plates, a gantry guide rail is arranged on the upper surface of the side plates, a gantry is arranged on the gantry guide rail, and a grabbing mechanism is connected on an upper beam of the gantry through an X-axis sliding rail; the bottom conveying mechanism is arranged at the bottom of the inner side of the frame and used for taking away scraps produced by machining, the front end of the frame is sequentially provided with a front end cross beam, a longitudinal beam, a turning drill bracket, a five-axis machining beam and a rear cross beam, and a feeding mechanism, a five-axis movable machining mechanism and a five-axis machining mechanism are sequentially and respectively installed, namely, the feeding mechanism is installed on the front end cross beam of the frame through a guide rail A, the feeding mechanism is installed on the longitudinal beam of the frame through a guide rail B, the five-axis movable machining mechanism is installed on the corresponding turning drill bracket of the frame through a guide rail C, and the five-axis machining mechanism is installed on the five-axis machining beam of the frame. The special-shaped machining device aims to finish the special-shaped machining of the long-strip-shaped workpiece on one numerical control machine at one time.

Description

Double-five-axis machining center for machining strip-shaped materials into special-shaped pieces

Technical Field

The invention relates to a machining center, in particular to a double-five-axis machining center for machining strip materials into special-shaped pieces.

Background

The existing machining center can not finish machining both ends at one time when machining the strip-shaped workpiece, namely, a numerical control machine tool for finishing machining the special-shaped molding of the whole strip-shaped material at one time is not available in the market at present, and the machining center is divided into two steps to finish machining when machining the strip-shaped workpiece, or firstly performs middle section machining, then removes the workpiece to another machining machine to finish machining both ends after finishing, or firstly performs both ends machining, and then removes the workpiece to another machining machine to finish middle section machining.

Disclosure of Invention

The invention aims to provide a double five-axis machining center for machining strip-shaped materials into special-shaped pieces, and aims to realize one-time machining completion of special-shaped machining on a strip-shaped workpiece on a numerical control machine.

The technical scheme of the invention is as follows: the utility model provides a processing center is five to two five processing centers of profile shapes with bar material processing, includes frame, turning milling and bores mechanism, grabs a mechanism, characterized by: the frame is provided with two pairs of side plates, a gantry guide rail is arranged on the upper surface of the side plates, a gantry is arranged on the gantry guide rail, and a grabbing mechanism is connected on an upper beam of the gantry through an X-axis sliding rail; the bottom conveying mechanism is arranged at the bottom of the inner side of the frame and used for taking away scraps produced by machining, the front end of the frame is sequentially provided with a front end cross beam, a longitudinal beam, a turning drill bracket, a five-axis machining beam and a rear cross beam, and a feeding mechanism, a five-axis movable machining mechanism and a five-axis machining mechanism are sequentially and respectively installed, namely, the feeding mechanism is installed on the front end cross beam of the frame through a guide rail A, the feeding mechanism is installed on the longitudinal beam of the frame through a guide rail B, the five-axis movable machining mechanism is installed on the corresponding turning drill bracket of the frame through a guide rail C, and the five-axis machining mechanism is installed on the five-axis machining beam of the frame.

Further the double five-axis machining center for machining strip materials into special-shaped pieces is characterized in that: the five-axis mobile machining mechanism comprises an assembly frame, a tool bit seat, a tool bit arm and a tool bit, wherein the assembly frame is provided with a bottom plate, a vertical frame, the bottom plate and the vertical frame are integrated, the bottom plate is arranged on a guide rail C through a sliding block, one side of the vertical frame is connected with the tool bit seat through a Y-axis guide rail, the tool bit seat can move up and down along the vertical frame, a servo motor output shaft in the tool bit seat is connected with the tool bit arm, the tool bit arm rotates under the action of the servo motor to switch the tool bit, the tool bit is arranged on a motor output shaft in the tool bit arm, a transverse frame is arranged in the middle of the vertical frame, an upper turning tool and a lower turning tool are arranged on the transverse frame through the guide rail, and the turning tools can stretch relative to the vertical frame to switch the turning tools.

Further the double five-axis machining center for machining strip materials into special-shaped pieces is characterized in that: the grabbing mechanism comprises an X-axis sliding rail, a mounting seat and a Y-axis sliding rail, the mounting seat is connected to the portal frame through the X-axis sliding rail, the other surface of the mounting seat is connected with the rotating motor seat through the Y-axis sliding rail, the motor output shaft in the rotating motor seat is connected with the upper surface of the connecting plate, the lower surface of the connecting plate is connected with the sliding block plate in a sliding manner, and the lower guide rail of the sliding block plate is connected with the movable clamp.

Further the double five-axis machining center for machining strip materials into special-shaped pieces is characterized in that: the feeding mechanism comprises a mounting plate, a vertical rod, a cross rod, a bracket, a pressing frame, a height adjustment and a pneumatic brake, wherein the mounting plate is arranged on a frame cross beam through a guide rail A, the vertical rod is fixedly arranged on the mounting plate, the upper end of the vertical rod is vertically connected with the cross rod, the bracket is arranged on the cross rod, a long strip hole is formed in the connecting part of the bracket and the cross rod for adjusting the front and rear positions of the bracket when the bracket is connected and fixed, the pressing frame is fixed to the bracket by bolts and rises, one clamping opening is formed between the bracket and the upper arm of the pressing frame correspondingly, and the other feeding mechanism is symmetrically arranged in an image mode to form a feeding bin; a screw rod is arranged at the upper end of the vertical rod, one end of the screw rod is connected with a hand crank, and the other end of the screw rod is connected to the bracket and used for adjusting the distance between the bracket and the pressing frame so as to adapt to the placement of materials with different sizes; the front end of the pressure lever is provided with a cylinder gate for blocking and releasing materials, and the front end of the cross rod is also provided with an adjusting screw for adjusting the height of the support rod so as to adapt to the placement of materials with different sizes.

Further the double five-axis machining center for machining strip materials into special-shaped pieces is characterized in that: the feeding mechanism comprises a feeding seat, a lathe headstock, a push rod, a feeding slide rail and a tail shaft box, wherein the lathe headstock and the tail shaft box are installed on the feeding seat through the feeding slide rail, the push rods on the lathe headstock and the tail shaft box are installed in opposite directions, the lathe headstock and the tail shaft box fix a workpiece through the push rods, the feeding mechanism is installed on a longitudinal beam through a guide rail B, and the feeding mechanism moves on the guide rail B on the longitudinal beam to realize the transfer and the supporting fixation of the workpiece.

Further the double five-axis machining center for machining strip materials into special-shaped pieces is characterized in that: the five-axis machining mechanism comprises a rear assembly seat, a rear cutter head arm and a rear cutter head, wherein the rear assembly seat is arranged on a cross beam, an output shaft of a servo motor in the rear assembly seat is connected with the rear cutter head arm, the rear cutter head arm rotates under the action of the servo motor to switch the rear cutter head, and the rear cutter head is arranged on an output shaft of the motor in the rear cutter head arm.

Further the double five-axis machining center for machining strip materials into special-shaped pieces is characterized in that: the bottom conveying mechanism comprises a conveying belt, a material collecting box and a material outlet, the conveying belt is arranged at the bottom of the frame and covers the bottom of the whole frame, the material collecting box is arranged at the tail end of the conveying belt, the material outlet is arranged on one side of the material collecting box, and the conveying belt conveys scraps processed on the upper part to the material collecting box to be pumped away by negative pressure through the material outlet.

When the feeding device is used, the distance between the feeding mechanisms at two sides of the feed bin is adjusted to be suitable for placing a workpiece to be machined, the height of the bracket and the distance between the feeding mechanisms and the pressing frame are adjusted to adapt to the size of the workpiece to be machined, then the workpiece to be machined is placed into the feed bin, a plurality of feeding mechanisms can be placed in one time, the feeding mechanisms are moved to the lower side of the feed bin along the guide rail B under numerical control, the tail shaft box of the feeding mechanisms and the ejector rods on the main shaft box of the lathe are controlled by numerical control to tightly jack the lowest part of the workpiece in the feed bin, then the pneumatic brake of the feed bin is opened to release the pushed material, then the pneumatic brake is arranged on the pneumatic brake, the whole material in the feed bin falls to a position, the feeding mechanism transfers the removed material to the five-shaft moving machining mechanism, after the middle section machining is completed by numerical control, the five-shaft moving machining mechanism is moved away, the grabbing mechanism is used for grabbing the material from the feeding mechanism, the two ends of the workpiece are matched with the grabbing mechanism under numerical control, the five-shaft machining mechanism is completed, the workpiece is released from the workpiece, and the workpiece falls onto the conveying belt and is taken out of the frame by the conveying belt.

The invention has the beneficial effects that:

1. the lathe spindle box and the tail shaft box are arranged and can move in a feeding manner along the Y-axis direction, the feeding seat mechanism which moves integrally is utilized to move to the position of the fixed bin feeding mechanism, the tail shaft extends out of the ejector rod to prop up timber to be processed which is placed in the bin, the Y-axis automatic material taking with servo control is realized, and the automatic feeding device of the machine is simplified;

2. the grabbing mechanism can grab the workpiece from the feeding mechanism, the grabbing mechanism positions the grabbing position by the position of the workpiece which is not released after the middle section processing is finished on the feeding mechanism, the precision of the secondary clamping materials is improved, and the clamping state of the two ends of the top is switched to the radial clamping state, so that the two ends of the workpiece are processed after the middle section processing is finished;

3. the turning and milling supported at the two ends are combined with the milling and drilling clamped radially, so that continuous, independent and simultaneous operation (double/multi-channel control mode) of the middle section processing and the two-end processing of the strip-shaped material is realized;

4. the turning and milling mechanism is provided with a cutter clamping mechanism to realize 3-axis movement, namely an X/Z linear axis and an A rotary axis, so that a workpiece can realize a 2-axis mode of a Y linear axis and a B workpiece rotary axis, and the rigidity of the mechanism and automatic material taking are considered;

5. the tool spindle modularization is realized by grabbing and clamping the workpiece and moving the workpiece to be matched with the fixed tool spindle motor, the number of the tool spindles is not limited, and the processing method is enriched;

6. the bottom of the machine tool is provided with a conveying belt, and one end of the conveying belt is provided with a dust collection box with a leaking hole and a dust collection cover with a dust collection opening, so that finished products and wood chips are separated in conveying, and the wood chips are sucked away.

Drawings

FIG. 1 is a rear left perspective view of the structure of the present invention

FIG. 2 is a rear right perspective view of the structure of the present invention

FIG. 3 is a schematic front view of the structure of the present invention

FIG. 4 is a schematic left-hand view of the structure of the present invention

FIG. 5 is a right side view of the structure of the present invention

FIG. 6 is a schematic front view of the structure of the present invention with the front side panel removed

FIG. 7 is a schematic top view of the structure of the present invention

FIG. 8 is a schematic top view of a structural frame of the present invention

FIG. 9 is a perspective view of a structural frame of the present invention

FIG. 10 is a schematic perspective view of a rear side plate of the structure of the present invention

FIG. 11 is an enlarged rear perspective view of the right side structure of the bin of the invention

FIG. 12 is an enlarged front perspective view of the right side structure of the bin of the invention

In the figure: frame 1, rail a101, longitudinal beam 102, rail B103, rail C104, drill carriage 105, five-axis tooling beam 106, gantry rail 107, side plate 108, rear cross beam 109, feed mechanism 2, upright 201, mounting plate 202, hand reel 203, screw 204, press frame cross arm 205, height adjustment block 206, slot 207, carriage 208, press frame 209, cylinder mount 2010, cylinder 2011, pneumatic brake 2012, carrier bar 2013, adjustment screw 2014, carrier frame 2015, rail 2016, adjustment nut 2017, slot 2018, material 2019, feed mechanism 3, tail box 301, ram 302, machined part 303, feed slide 304, lathe headstock 305, feed block 306, five-axis movement tooling mechanism 4, upright 401, Y-axis guide 402, tool head block 403, tool head arm 404, tool head 405, turning tool 406, bottom plate 407, cross frame 408, five-axis tooling mechanism 5, rear mounting block 501, rear tool head 502, rear arm 503, bottom conveyor 6, conveyor 601, aggregate box 602, discharge gate 603, gripper mechanism 7, gripper block 702, X-axis carriage mount block 708, slide mount 706, motor mount 706, slide mount 706, and slide mount 706.

Detailed Description

A double five-axis machining center for machining strip materials into special-shaped pieces comprises a frame 1, a turning, milling and drilling mechanism 4 and a piece grabbing mechanism 7, wherein the frame 1 is provided with two pairs of side plates 108, a gantry guide rail 107 is arranged on the upper surface of each side plate 108, a gantry 701 is arranged on each gantry guide rail 107, and an upper beam of each gantry 701 is connected with the piece grabbing mechanism through an X-axis sliding rail 702; the bottom conveying mechanism 6 is arranged at the bottom of the inner side of the frame 1 and used for taking away scraps generated by machining, the front end of the frame 1 is sequentially provided with a front end cross beam, a longitudinal beam 102, a turning drill bracket 105, a five-axis machining beam 106 and a rear cross beam 109, the feeding mechanism 2, the feeding mechanism 3, the five-axis movable machining mechanism 4 and the five-axis machining mechanism 5, the feeding mechanism 2 is arranged on the front end cross beam of the frame 1 through a guide rail A101, the feeding mechanism 3 is arranged on the longitudinal beam 102 of the frame 1 through a guide rail B103, the five-axis movable machining mechanism 4 is arranged on the corresponding turning drill bracket 105 of the frame 1 through a guide rail C104, and the five-axis machining mechanism 5 is arranged on the five-axis machining beam 106 of the frame 1.

The further five-axis mobile processing mechanism 4 comprises an assembly frame, a tool bit seat 403, a tool bit arm 404 and a tool bit 405, wherein the assembly frame is provided with a bottom plate 407 and a vertical frame, the bottom plate 407 and the vertical frame 401 are integrated, the bottom plate 407 is arranged on a guide rail C104 through a sliding block, one side of the vertical frame 401 is connected with the tool bit seat 403 through a Y-axis guide rail 402, the tool bit seat 403 can move up and down along the vertical frame 401, a servo motor output shaft in the tool bit seat 403 is connected with the tool bit arm 404, the tool bit arm 404 rotates under the action of the servo motor to switch the tool bit 405, the tool bit 405 is arranged on a motor output shaft in the tool bit arm 404, a transverse frame 408 is arranged in the middle of the vertical frame 401, the transverse frame 408 is provided with two upper turning tools 406 and lower turning tools 406 through guide rails, and the turning tools 406 can stretch relative to the vertical frame 401 to switch the turning tools 406.

Further the double five-axis machining center for machining strip materials into special-shaped pieces is characterized in that: the grabbing mechanism 7 comprises an X-axis sliding rail 702, a mounting seat 703 and a Y-axis sliding rail 7010, a rotary motor seat 707, a connecting plate 704, a sliding block plate 709, guide rails and a movable clamp 706, wherein the mounting seat 703 is connected to the portal frame 701 through the X-axis sliding rail 702, the other surface of the mounting seat 703 is connected with the rotary motor seat 707 through the Y-axis sliding rail 7010, a motor output shaft in the rotary motor seat 707 is connected with the upper surface of the connecting plate 704, the lower surface of the connecting plate 704 is connected with the sliding block plate 709 in a sliding mode, and the lower guide rail of the sliding block plate 709 is connected with the movable clamp 706.

Further, the feeding mechanism 2 includes a mounting plate 202, a vertical rod 201, a horizontal rod 2016, a bracket 208, a pressing frame 209, a height adjusting pneumatic brake 2012, wherein the mounting plate 202 is mounted on a beam of the frame 1 through a guide rail a101, the vertical rod 201 is fixedly mounted on the mounting plate 202, the upper end of the vertical rod 201 is vertically connected with the horizontal rod 2016, the bracket 208 is mounted on the horizontal rod 2016, a long hole 2018 is formed at the connection part of the bracket 208 and the horizontal rod 2016 for adjusting the front and rear positions of the bracket 208 when the bracket 208 is fixedly connected with the horizontal rod 2016, the pressing frame 209 is fixed on the bracket 208 by bolts, a clamping opening is formed between the bracket 208 and an arm part on the pressing frame 209, and the other feeding mechanism 2 is symmetrically arranged in an image to form a feeding bin; a screw 204 is arranged at the upper end of the vertical rod 201, one end of the screw 204 is connected with the hand-operated disc 203, and the other end is connected with the bracket 208, and is used for adjusting the distance between the bracket 208 and the pressing frame 209 so as to adapt to the size of the placed materials; the depression bar 209 front end is gone out and is provided with cylinder floodgate 2012 for release material, and the horizontal pole 2016 front end still is equipped with adjusting screw 2014 and is used for adjusting the die-pin 2013 height, in order to adapt to placing the material size and pass through.

Further, the five-axis machining mechanism 5 includes a rear assembly seat 501, a rear cutter head arm 503 and a rear cutter head 502, the rear assembly seat 501 is mounted on the beam 106, the output shaft of the servo motor in the assembly seat 501 is connected with the rear cutter head arm 503, the rear cutter head arm 503 rotates under the action of the servo motor to switch the rear cutter head 502, and the rear cutter head 502 is mounted on the output shaft of the motor in the rear cutter head arm 503.

The feeding mechanism 3 further comprises a feeding seat 306, a lathe headstock 305, a mandrel 302, a feeding slide rail 304 and a tail shaft box 301, the lathe headstock 305 and the tail shaft box 301 are installed on the feeding seat 306 through the feeding slide rail 304, the mandrel 302 on the lathe headstock 305 and the tail shaft box 301 are installed in opposite directions, the lathe headstock 305 and the tail shaft box 301 fix the workpiece 303 through the mandrel 302, the feeding mechanism 3 is installed on the longitudinal beam 102 through the guide rail B103, and the feeding mechanism 3 moves on the guide rail B103 on the longitudinal beam 102 to realize the transfer and the support fixation of the workpiece 303.

Further the double five-axis machining center for machining strip materials into special-shaped pieces is characterized in that: the bottom conveying mechanism comprises a conveying belt 601, a dust collecting box 602 and a discharge hole 603.

Claims (6)

1. The utility model provides a processing center is five to two five processing centers of profile shapes with bar material processing, includes frame, turning milling and bores mechanism, grabs a mechanism, characterized by: the frame is provided with two pairs of side plates, a gantry guide rail is arranged on the upper surface of the side plates, a gantry is arranged on the gantry guide rail, and a grabbing mechanism is connected on an upper beam of the gantry through an X-axis sliding rail; the bottom of the inner side of the frame is provided with a bottom conveying mechanism for taking away scraps produced by machining, the front end of the frame is sequentially provided with a front end cross beam, a longitudinal beam, a turning drill bracket, a five-axis machining beam and a rear cross beam, and a feeding mechanism, a five-axis movable machining mechanism and a five-axis machining mechanism are sequentially and respectively arranged; the grabbing mechanism comprises an X-axis sliding rail, a mounting seat and a Y-axis sliding rail, the mounting seat is connected to the portal frame through the X-axis sliding rail, the other surface of the mounting seat is connected with the rotating motor seat through the Y-axis sliding rail, the motor output shaft in the rotating motor seat is connected with the upper surface of the connecting plate, the lower surface of the connecting plate is connected with the sliding block plate in a sliding manner, and the lower guide rail of the sliding block plate is connected with the movable clamp.

2. A dual five axis machining center for machining bar materials into profiled pieces according to claim 1, characterized in that: the five-axis mobile machining mechanism comprises an assembly frame, a tool bit seat, a tool bit arm and a tool bit, wherein the assembly frame is provided with a bottom plate, a vertical frame, the bottom plate and the vertical frame are integrated, the bottom plate is arranged on a guide rail C through a sliding block, one side of the vertical frame is connected with the tool bit seat through a Y-axis guide rail, the tool bit seat can move up and down along the vertical frame, a servo motor output shaft in the tool bit seat is connected with the tool bit arm, the tool bit arm rotates under the action of the servo motor to switch the tool bit, the tool bit is arranged on a motor output shaft in the tool bit arm, a transverse frame is arranged in the middle of the vertical frame, an upper turning tool and a lower turning tool are arranged on the transverse frame through the guide rail, and the turning tools can stretch relative to the vertical frame to switch the turning tools.

3. A dual five axis machining center for machining bar materials into profiled pieces according to claim 2, characterized in that: the feeding mechanism comprises a mounting plate, a vertical rod, a cross rod, a bracket, a pressing frame, a height adjustment and a pneumatic brake, wherein the mounting plate is arranged on a frame cross beam through a guide rail A, the vertical rod is fixedly arranged on the mounting plate, the upper end of the vertical rod is vertically connected with the cross rod, the bracket is arranged on the cross rod, a long strip hole is formed in the connecting part of the bracket and the cross rod for adjusting the front and rear positions of the bracket when the bracket is connected and fixed, the pressing frame is fixed to the bracket by bolts and rises, one clamping opening is formed between the bracket and the upper arm of the pressing frame correspondingly, and the other feeding mechanism is symmetrically arranged in an image mode to form a feeding bin; a screw rod is arranged at the upper end of the vertical rod, one end of the screw rod is connected with a hand crank, and the other end of the screw rod is connected to the bracket and used for adjusting the distance between the bracket and the pressing frame so as to adapt to the placement of materials with different sizes; the front end of the pressure lever is provided with a cylinder gate for blocking and releasing materials, and the front end of the cross rod is also provided with an adjusting screw for adjusting the height of the support rod so as to adapt to the placement of materials with different sizes.

4. A dual five axis machining center for machining bar materials into profiled pieces according to claim 3, characterized in that: the feeding mechanism comprises a feeding seat, a lathe headstock, a push rod, a feeding slide rail and a tail shaft box, wherein the lathe headstock and the tail shaft box are installed on the feeding seat through the feeding slide rail, the push rods on the lathe headstock and the tail shaft box are installed in opposite directions, the lathe headstock and the tail shaft box fix a workpiece through the push rods, the feeding mechanism is installed on a longitudinal beam through a guide rail B, and the feeding mechanism moves on the guide rail B on the longitudinal beam to realize the transfer and the supporting fixation of the workpiece.

5. The dual five axis machining center for machining strip materials into profiled pieces according to claim 4, wherein: the five-axis machining mechanism comprises a rear assembly seat, a rear cutter head arm and a rear cutter head, wherein the rear assembly seat is arranged on a cross beam, an output shaft of a servo motor in the rear assembly seat is connected with the rear cutter head arm, the rear cutter head arm rotates under the action of the servo motor to switch the rear cutter head, and the rear cutter head is arranged on an output shaft of the motor in the rear cutter head arm.

6. The dual five axis machining center for machining strip materials into profiled pieces according to claim 5, wherein: the bottom conveying mechanism comprises a conveying belt, a material collecting box and a material outlet, the conveying belt is arranged at the bottom of the frame and covers the bottom of the whole frame, the material collecting box is arranged at the tail end of the conveying belt, the material outlet is arranged on one side of the material collecting box, and the conveying belt conveys scraps processed on the upper part to the material collecting box to be pumped away by negative pressure through the material outlet.